JP2018033049A - Multi-remote controller - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a remote controller which can perform remote control operation of multiple electrical appliances easily, and in which occurrence of remote control operation error is difficult.SOLUTION: The remote controller for use in electrical appliances is constituted of a prismatic or truncated pyramidal operating section, and a grip section adjacent to the lower surface of the operating section. On the multiple peripheral surfaces of the operating section, control panels of the same or different electrical appliances are arranged, and infrared transmission means is provided on the upper surface of the operating section. The remote controller can be independent, with the lower surface of the grip section or the upper surface of the operating section as the ground side. The infrared transmission means consists of more than two infrared transmitting sections having different transmission regions or different transmission directions. The number of operation buttons in the control panel is smaller than the number of operation buttons of the original remote controller of an electrical appliance becoming the operation object. The operating section and grip section are decorated with strong color of clear hue, red, vermilion, or scarlet.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a remote control device used for household appliances and the like.

  In recent years, the convenience of electrical appliances used in homes and the like has improved, and there are an increasing number of devices that can be used by operating a remote controller without operating the device body. However, if remote controllers are provided for different electrical appliances, the number of remote controllers increases, and for example, a problem that the remote controller of the television and the air conditioner is mistaken and does not operate even if the remote controller is operated easily occurs. In addition, when the number of remote controllers increases, there is a problem that it is not only bulky but also confused with other things, making it easy to eliminate the remote controller. In this way, the number of remote controls that should originally improve convenience becomes complicated as the number increases, and convenience decreases. Moreover, in the modern society where aging is progressing, such a problem is particularly important for an elderly person, a patient with dementia, a person with higher brain dysfunction, etc. whose ability to judge is lowered.

Therefore, a learning remote control system that can learn and operate a plurality of devices with fewer buttons is known (see Patent Document 1).
In this case, operation buttons for a plurality of devices are provided on one remote controller, and these are provided with a learning function. However, in the learning remote control system disclosed in Patent Document 1, attention is not paid to the shape of the remote control, and remote control operation units of a plurality of devices are provided on one operation surface, so that a wrong button is pressed. There was a problem that it was easy.

There is also known a remote control device that allows a plurality of remote controls to be operated while simplifying the device (see Patent Document 2).
In this case, a movable part that can rotate is provided in the remote control body, and the remote control of a plurality of devices can be switched by rotating the movable part. However, in the remote control device disclosed in Patent Document 2, the operation is complicated, and there is a problem that the operation is difficult for a user who has a low ability to judge, such as an elderly person, a patient with dementia, or a person with higher brain dysfunction. is there. Further, since the mechanism is complicated, there is a problem that the manufacturing cost is increased.

JP-A-8-331666 JP 2010-251968 A

In view of the above situation, an object of the present invention is to provide a remote controller that can easily perform remote control operations of a plurality of electrical appliances and is less likely to cause a remote control operation error.
In particular, an object is to provide a remote control that is easy to find and use for patients with dementia and higher brain dysfunction.

In order to solve the above-described problems, the multi-remote controller of the present invention is a remote controller used for an electrical appliance, and includes a prismatic or truncated pyramid-shaped operation unit and a gripping unit adjacent to the lower surface of the operation unit. . And the operation panel of an electrical appliance is arrange | positioned on the several surrounding surface of an operation part, and an infrared rays transmission means is provided in the upper surface of an operation part.
The operation unit of the multi-remote controller of the present invention has a prismatic shape or a truncated pyramid shape, and operation panels of different electrical appliances are arranged on a plurality of peripheral surfaces. Therefore, the risk that the remote controllers of a plurality of electrical appliances are integrated into one, and the remote controller is mistaken and does not operate even if an operation is performed is reduced. The gripping part can be gripped with one hand, and the operation panel can be operated with the thumb or index finger of the gripped hand.
In the multi-remote controller of the present invention, operation panels of the same electrical appliance may be arranged on a plurality of peripheral surfaces of the operation unit, or operation panels of different electrical appliances are arranged on a plurality of peripheral surfaces of the operation unit. It may be.

  Here, the prismatic shape or the truncated pyramid shape of the operation unit does not necessarily require an acute boundary between adjacent peripheral surfaces, and includes a rounded and smooth shape. The truncated pyramid shape of the operation unit may be an inverted truncated pyramid. Further, the peripheral surfaces of the operation unit may not be all the same shape, but may be partially or entirely different shapes.

In the multi-remote controller of the present invention, it is preferable that the lower surface of the gripping portion or the upper surface of the operation portion can be self-supporting with the ground side.
Since the remote control itself can be self-supporting, the presence of the remote control is conspicuous and the risk of the remote control being buried around is reduced. In particular, for a patient with dementia or a person with higher brain dysfunction, since the remote control is self-supporting, the presence of the remote control is conspicuous and it is easy to find the remote control.
If the lower surface of the gripping unit and the upper surface of the operation unit are flat, the entire surface is grounded and is likely to stand on its own. In addition, if the bottoms of the gripping part and the upper part of the operation part are respectively widened, the ground contact area becomes large and it is easier to stand on its own. In addition, a leg that can stand on the lower surface of the gripping unit or the upper surface of the operation unit may be provided.

  The infrared transmission means in the multi-remote controller of the present invention is preferably composed of two or more infrared transmission units having different transmission areas or different transmission directions. Since infrared rays can be transmitted over a wide range, infrared rays can be transmitted / received without directing the infrared ray transmission unit of the remote control to the infrared ray reception unit of the electrical appliance to be operated, and the convenience of remote control operation is improved. In particular, remote control operations are simple for patients with dementia and those with higher brain dysfunction.

In the operation unit of the multi-remote controller of the present invention, the prismatic shape is preferably a regular N prism (N is 3 or more and 10 or less), or the truncated pyramid is preferably a positive N pyramid (N is 3 or more and 10 or less). It is an aspect. If it is a regular triangular prism or a regular triangular frustum, it is possible to provide operation panels for two to three types of electrical appliances on three peripheral surfaces. You may provide the operation panel of two types of electrical appliances using two peripheral surfaces among three peripheral surfaces. In the case of a regular quadrangular prism or a regular quadrangular frustum, it is possible to provide operation panels for 2 to 4 types of electric appliances on four peripheral surfaces. If it is a regular pentagonal prism or a regular pentagonal pyramid, it is possible to provide operation panels of 2 to 5 types of electrical appliances on five peripheral surfaces. If it is a regular hexagonal column or a regular hexagonal frustum, it is possible to provide operation panels for 2 to 6 types of electrical appliances on six peripheral surfaces.
Similarly, in the case of a regular decagonal prism or a regular decagonal truncated pyramid, it is possible to provide operation panels for 2 to 10 kinds of electric appliances on 10 peripheral surfaces. Theoretically, it is possible to have a larger number of peripheral surfaces than a regular decagonal prism or a regular decagonal frustum, but this is a practical range.

The gripping part in the multi-remote controller of the present invention is a regular polygonal cylinder, a regular polygonal frustum, a cylinder, a columnar table, an elliptical column, or an elliptical columnar shape, or those shapes further toward the lower surface side. It is a shape which has a shape of a base spread, and it is a preferable aspect that the axis in the height direction of the operation portion and the axis in the height direction of the grip portion are coaxial.
The gripping part can be grasped with one hand, and the shape of the gripping part can be operated with the thumb or index finger of the gripped hand, so that the shape of the gripping part is a regular polygonal column, a regular polygonal frustum, a cylinder, a columnar base, an elliptical column, or Any one of the elliptical column bases is set so that the axis in the height direction of the operation portion and the axis in the height direction of the grip portion are coaxial.
Moreover, it is preferable that a holding | grip part exhibits the shape of a base spread toward a lower surface side. This is because the ground contact area is increased and the remote control alone is easy to be independent if the base is widened toward the lower surface side of the grip portion.

The upper surface of the gripping part in the multi-remote controller of the present invention is preferably any one of the following a) to c).
a) It has the same shape and the same size as the lower surface of the operation unit.
b) Similar to the lower surface of the operation unit and small.
c) Small in shape different from the lower surface of the operation unit.

  The diameter of the gripping part is preferably a diameter that can be gripped with one hand, specifically 3 to 7 cm. Therefore, it is the same or smaller than the size of the lower surface of the operation unit. By making the axis in the height direction of the operation unit and the axis in the height direction of the gripping unit co-axial, it becomes easier to operate the operation panel of the operation unit with the fingers of the gripped hand.

  There are various combinations of shapes of the operation part and the grip part. For example, the operation unit may be a regular triangular prism and the gripping unit may be a regular triangular prism. Alternatively, the operation unit may be a regular triangular prism and the gripping unit may be a cylinder. Alternatively, the operation unit may be a regular quadrangular frustum and the gripping unit may be a regular hexagonal column. When the operation unit is a regular triangular prism and the gripping unit is a regular triangular prism, the upper surface of the gripping unit may be the same shape and the same size as the lower surface of the operation unit, or may be similar to the lower surface of the operation unit and small. On the other hand, when the operation part is a regular triangular prism and the gripping part is a cylinder, or when the operation part is a regular quadrangular pyramid and the gripping part is a regular hexagonal column, the upper surface of the gripping part is different in shape from the lower surface of the operation part.

The number of operation buttons on the operation panel of the multi-remote control of the present invention is preferably smaller than the number of operation buttons of the original remote control of the electrical appliance to be operated.
Here, the operation buttons on the operation panel are less than the operation buttons of the original remote control in the case of a television, an air conditioner, and a lighting fixture. Preferably a button is provided. In particular, it is easier for a patient with dementia and a person with higher brain dysfunction to arrange only operation buttons that can perform a minimum operation, and operation errors can be reduced.
As a result, it is possible to avoid remote control users from holding their minds such as “inconvenient” or “cannot be restored when the wrong button is pressed”. can do.

1) In the case of a television At least a power on / off button, a volume switching button, and a channel switching button are provided.
2) In the case of an air conditioner At least a power on / off button is provided.
3) In the case of lighting equipment At least a power on / off button is provided.
4) In the case of a video recorder At least a power on / off button and a play / stop button are provided.

The operation panel in the multi-remote control according to the present invention is provided with at least one of an operation button and a liquid crystal screen.
The original remote control of the air conditioner is provided with a liquid crystal screen for temperature display. Similarly, in the operation panel of the multi-remote controller of the present invention, a liquid crystal screen may be provided in addition to the operation buttons. Further, if the liquid crystal screen accepts operation input by a touch panel method, an operation button may be displayed on the liquid crystal screen to operate the electrical appliance to be operated.
When receiving information from the electric appliance side and displaying it on the liquid crystal screen, it is necessary to provide an infrared receiving means on the remote control side in addition to the infrared transmitting means.

A battery storage box for a dry battery or a rechargeable battery is provided inside the grip portion of the multi-remote controller of the present invention.
By making the inside of the gripping portion into a battery storage box, the center of gravity of the entire remote control is located on the lower gripping portion side when the battery is stored, so that the remote control body can easily stand on its own.

It is preferable that at least one of the operation unit and the gripping unit in the multi-remote controller of the present invention is given a strong and clear color. Specifically, it is a primary color, an innocent color, and an exciting flashy color.
It is more preferable that the operation portion and the grip portion are red, vermilion, or amber.
If the appearance of the remote control is given a strong color with a clear hue, the presence of the remote control is noticeable and the risk of the remote control being buried around is reduced. In particular, for patients with dementia and those with higher brain dysfunction, it is easy to identify by using red, vermilion, and scarlet color stimuli among the reddish colors, and the remote control can be easily found.

The multi-remote controller of the present invention is provided with a selection means for selecting the model of the electrical appliance to be operated, and the assignment between the operation panel and the operation button of the electrical appliance of a specific model is stored in advance for each selection means. And it is preferable that allocation with an operation panel and electrical appliances can be switched by said selection means.
Here, the selection means is specifically a selection switch, a setting button, a manufacturer code, or the like.
There is a control board inside the operation part of the remote control, which stores in advance a protocol (communication protocol when the operation button is pressed) for operating a specific model of electrical equipment (including equipment from other manufacturers). Allocation between the operation panel and operation buttons of a specific model of electrical appliance is stored in advance. And allocation with the operation panel of each peripheral surface and a specific electrical appliance can be switched by said selection switch.

The multi-remote controller of the present invention is further provided with a learning unit that performs data communication with the remote control body, and the learning unit learns a protocol that is executed by pressing an operation button of the original remote controller of the electrical appliance to be operated, It is preferable that the protocol learned by the learning unit can be assigned to the operation button on the operation panel.
The learning unit learns the protocol for operating a particular model of electrical appliance (communication protocol when the operation button is pressed), communicates data with the remote control body, and stores it in the memory of the control board inside the operation unit of the remote control . At that time, a protocol learned by the learning unit is assigned to each operation button on the operation panel on each peripheral surface.
The learning unit provided in the multi-remote controller of the present invention may be built in the remote control body.

In the multi-remote control of the present invention, the remote control main body has a data communication function capable of data communication with a computer, and the computer can download a remote control program for an electric appliance to be operated via the Internet. It is preferable that the program can be transferred to the remote control main body, and the operation panel and a specific electrical appliance can be assigned.
A remote control program, which is a protocol for operating a specific type of electrical appliance (communication protocol when an operation button is pressed), is downloaded from a download site using a computer. The downloaded remote control program is stored in the memory of the control board inside the operation unit of the remote control. As a result, the protocol learned by the learning unit can be assigned to the operation buttons on the operation panel on each peripheral surface.

  According to the multi-remote control of the present invention, it is possible to easily perform remote control operations of a plurality of electrical appliances, and there is an effect that a remote control operation error hardly occurs. In addition, there is an effect that it is easy to find and use the remote control body for patients with dementia and those with higher brain dysfunction.

The perspective view of the multi remote control of Example 1 Front view of the multi-remote controller of Embodiment 1 Right side view of the multi-remote controller of Embodiment 1 Explanatory drawing of the learning function of the multi-remote controller of the first embodiment Left side view of the multi-remote controller of Embodiment 1 It is an infrared transmission image figure, (1) shows the case of one transmission part, (2) shows the case of two transmission parts, and (3) shows the case of the multi-remote control of the first embodiment. It is explanatory drawing of the transmission part of a multi remote control, (1) shows the case where there is one transmission part, (2) shows the case where there are two transmission parts, and (3) shows the case where there are four transmission parts in the first embodiment. The perspective view of the multi-remote control of Example 2. It is explanatory drawing of the multi-remote control of Example 2, (1) shows a front view, (2) shows a rear view. The perspective view of the multi remote control of Example 3 It is a perspective view of the multi-remote control of Example 4, (1) is a rounded shape, (2) is a truncated pyramid shape, (3) is a pentagonal prism shape. Learning flow diagram of operation buttons

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The scope of the present invention is not limited to the following examples and illustrated examples, and many changes and modifications can be made.

FIG. 1 is a perspective view of the multi-remote controller according to the first embodiment. As shown in FIG. 1, the multi-remote controller 1 includes an operation unit 2 and a grip unit 3. The operation unit 2 and the grip unit 3 both have a triangular prism shape, and the grip unit 3 is provided below the operation unit 2.
On the upper surface of the operation unit 2, transmission units (5 a to 5 d) that emit infrared rays are provided. Further, buttons (4a to 4e) for operating the device are arranged on the peripheral surface 2a of the operation unit 2, and a button 4f is arranged on the peripheral surface 2b. Although not shown, operation buttons are also arranged on the peripheral surface 2c.

The peripheral surfaces (2a to 2c) of the operation unit 2 are formed in parallel with the peripheral surfaces (3a to 3c) of the grip unit 3. Specifically, the peripheral surface 2a and the peripheral surface 3a, the peripheral surface 2b and the peripheral surface 3b, and the peripheral surface 2c and the peripheral surface 3c are formed in parallel.
The operation unit 2 and the gripping unit 3 have a base color of red, which is the primary color. The use of the primary color, which is a clear and strong color, makes it easier to find the remote control and prevents loss.

  FIG. 2 is a front view of the multi-remote controller according to the first embodiment. As shown in FIG. 2, “TV” is displayed on the upper portion of the peripheral surface 2 a of the operation unit 2, indicating that the peripheral surface 2 a is an operation surface of the television. Under the “TV” display, a button 4 a written “Power” is arranged. In the lower left, a “volume” is displayed, and a button 4b written as “large” and a button 4c written as “small” are arranged. Similarly, in the lower right, a “channel” is displayed, and a button 4 d written “+” and a button 4 e written “−” are arranged. As described above, the operation is facilitated by arranging only the buttons that are frequently used. In addition, buttons that are installed on the remote control attached to the TV main unit, but buttons that are not intended for use by the user are not placed on the multi-remote control, thereby preventing erroneous operations caused by pressing down buttons that are not intended. Avoid becoming out of control.

  The operation unit 2 and the gripping unit 3 both have a triangular prism shape, but the thickness thereof is not the same, and the thickness of the gripping unit 3 is thinner than the thickness of the operation unit 2. Thereby, in the operation unit 2, all necessary operation buttons can be arranged on the operation surface, and the grip unit 3 has a shape in which the remote controller can be easily gripped with one hand. Specifically, as shown in FIG. 2, the width W <b> 1 of the operation unit 2 is wider than the width W <b> 2 of the grip unit 3 in front view. However, the thickness is not limited to the embodiment, and considering the ease of manufacturing, the thickness of the operation unit 2 and the gripping unit 3 are the same or the thickness of the gripping unit 3 is made thicker than the thickness of the operation unit 2. May be.

  As shown in FIG. 2, the grip portion 3 is provided with two dip switches 6 below. The communication protocol of the device to be used is stored in advance, and the configuration is such that the relationship between the communication of the device being used and the buttons (4a to 4g) is determined by operating and setting the DIP switch 6. In the present embodiment, the above function is used for the operation of the television, but it may be used for an air conditioner or the like. That is, it is possible to use all dip switches without using the learning function.

FIG. 3 is a right side view of the multi-remote controller according to the first embodiment. As shown in FIG. 3, “air conditioner” is displayed on the upper portion of the peripheral surface 2 b of the operation unit 2, indicating that the peripheral surface 2 b is an operation surface of the air conditioner. Below the display of “air conditioner”, a button 4 f written “power” is arranged. Here too, the operation is facilitated by arranging only the buttons that are frequently used.
A learning connector 7 is provided on the peripheral surface 3 b of the grip portion 3.

  FIG. 4 is an explanatory diagram of the learning function of the multi-remote controller according to the first embodiment. As shown in FIG. 4, when using the learning function of the multi-remote controller, the multi-remote controller 1 and the learning unit 70 are connected, and the multi-remote controller 1 and the learning unit 70 are turned on. Infrared is received from the attached remote controller 100 and the communication protocol is stored. The multi-remote controller 1 and the learning unit 70 are connected by inserting the cable 71 provided in the learning unit 70 into the learning connector 7 provided in the multi-remote controller 1. In addition, transmission of the infrared ray 9 from the remote controller 100 to the learning unit 70 is performed from the transmitter 500 provided in the remote controller 100 to the communication protocol receiver 70a.

In this embodiment, learning of the remote control function is performed by using the learning unit 70, but the learning function may be provided inside the remote control 1 for learning. FIG. 2 shows a structure for determining the relationship between the communication of the device being used and the buttons (4a to 4g) by operating and setting the DIP switch 6. Find the software that matches the target remote controller by entering the manufacturer code set in advance for each manufacturer by installing it inside or pressing the operation button, and determine the relationship between the communication of the device you are using and the button It may be structured. Alternatively, a method may be used in which software that matches the target remote controller is downloaded on the Internet and the software is transferred to the remote controller.
In the present embodiment, the above functions are used for the operation of the air conditioner and the lighting, but it may be used for a television. That is, it is possible to use the learning function without using the dip switch.

  FIG. 12 shows an example of a learning procedure for assigning operation functions of operation buttons in the multi-remote controller of the present invention. First, the multi-remote controller main body and the learning unit are connected, and the infrared transmission unit of the original remote controller of the electrical appliance to be operated is brought close to the learning unit to prepare for connection as shown in FIG. 4 (step S01). . Next, a learning button provided in the learning unit is pressed (step S02). When the learning button is pressed, the LED 1 of the learning unit blinks (step S03). While the LED 1 is blinking, the operation button of the original remote controller is pressed (step S04). LED1 is turned off and LED2 is turned on (step S05). While the LED 2 is lit, the transfer button of the learning unit is pressed (step S06). By depressing the transfer button of the learning unit, the LED of the multi-remote controller is turned on (step S07). Of the operation buttons on the operation panel of the multi-remote controller, the button to be associated is pressed (step S08). The LED of the multi-remote controller is turned off from the lighting state (step S09). When learning other buttons, the process is repeated from step S02 (step S10).

FIG. 5 is a left side view of the multi-remote controller according to the first embodiment. As shown in FIG. 5, “illumination” is displayed on the upper portion of the peripheral surface 2 c of the operation unit 2, indicating that the peripheral surface 2 c is an operation surface for illumination. Under the display of “lighting”, a button 4g written “power” is arranged. Here too, the operation is facilitated by arranging only the buttons that are frequently used.
Moreover, the battery lid 8 is provided on the peripheral surface 3c of the grip portion 3, and the battery lid 8 can be opened by removing the screws (8a, 8b). The battery lid 8 is not limited to the screw type, but may be a fitting type. When the battery lid 8 is removed, a battery box is provided inside the battery lid 8 (not shown), and a dry battery can be attached.

FIG. 7 is an explanatory diagram of an infrared transmission unit of a multi-remote control whose operation unit has a regular triangular prism shape. 7 (1) shows a case where one infrared transmission unit is arranged at the center of the upper surface, and FIG. 7 (2) shows a case where two infrared transmission units are arranged side by side on one vertical line on the upper surface. Indicates a case where four infrared transmitters are arranged, one at the center of the upper surface and one at the three corners of the upper surface.
As shown in FIGS. 7 (1) and (2), the infrared irradiation range is more when the number of infrared transmission units is two transmission units (5a, 5b) than when the number of infrared transmission units is only the transmission unit 5a. Become wider. In addition, in the case of the multi-remote controller of the first embodiment shown in FIG. 7 (3), four transmission units (5a to 5d) are provided, and it is possible to irradiate infrared rays over a wider range. In this way, the transmission directions of the four transmission units (5a to 5d) are different so that the infrared irradiation range transmitted from the transmission units 5a, 5b, 5c, and 5d is irradiated more broadly. Thus, it is possible to reliably operate the electric appliance to be operated.

  FIG. 6 is an infrared transmission image diagram. (1) is a case where there is one infrared transmission unit, (2) is a case where there are two infrared transmission units, and (3) is an infrared transmission as in the case of the multi-remote control of the first embodiment. The case where there are four transmission units is shown. 6A is a cross-sectional view taken along the line AA in FIG. 7A, FIG. 6B is a cross-sectional view taken along the line AA in FIG. 7B, and FIG. 6C is a cross-sectional view taken along the line A-A in FIG. A sectional views are shown respectively. The transmission units (5a, 5b, 5d) are provided on the upper surface of the operation unit 2, and infrared rays (9a to 9c) are emitted from the transmission unit. Here, in the AA sectional view in FIG. 7 (3), only the transmitters (5a, 5b) appear, but for convenience, the transmitters (5a, 5b, 5c, 5d) are arranged in a line ( 5c and 5d overlap each other).

In FIG. 7 (1), the transmission unit provided on the upper surface of the operation unit 2 is only the transmission unit 5a, and as shown in FIG. 6 (1), irradiation of infrared rays transmitted upward from the transmission unit 5a. The range is limited to the range of infrared rays 9a.
On the other hand, in FIG. 7 (2), the transmission unit provided on the upper surface of the operation unit 2 is the transmission unit (5a, 5b), and as shown in FIG. 6 (2), there is one transmission unit. Unlike is irradiated extensively angled to the optical axis L ₁ and the optical axis L ₂ direction. Accordingly, the irradiation range of the infrared rays transmitted from the transmission units (5a, 5b) is the range of the infrared rays (9a, 9b) as shown in FIG. 6 (2), which covers a wider range than the case of only the transmission unit 5a. it can. Therefore, it can be seen that the case where a plurality of transmission units are provided is more easily detected by the reception unit of the target device. As described above, the infrared irradiation range (9a, 9b) transmitted from the transmission unit (5a, 5b) is different from the transmission direction of the transmission unit (5a, 5b) in the embodiment of FIG. 6 (2). In addition, it is possible to make the electric appliance to be operated assuredly in a wide range.

Further, in FIG. 7 (3), the transmission unit provided on the upper surface of the operation unit 2 is the transmission unit (5a, 5b, 5c, 5d), and one transmission unit is provided as shown in FIG. 6 (3). or Unlike the two, it is irradiated extensively at an angle by the optical axis L ₁ and the optical axis L ₂ direction. Therefore, as shown in FIG. 6 (3), the irradiation range of the infrared rays transmitted from the transmitters (5a, 5b, 5c, 5d) is the widest compared to the above-described FIGS. 6 (1) and (2). The range is (9a, 9b, 9c, 9d). In the AA sectional view in FIG. 7 (3), 9c and 9d appear to overlap. However, as can be seen from FIG. 7 (3), the transmission direction of the infrared rays transmitted from the transmission units 5b, 5c, and 5d is transmitted in different directions from the vicinity of each corner of the upper surface of the operation unit 2, When the infrared irradiation range from the transmitter 5a is included, the infrared irradiation range is a three-dimensional wide range. Therefore, it can be seen that the case where a plurality of transmission units are provided and the angle between the optical axes of infrared irradiation is widened is most easily detected by the reception unit of the target device.

FIG. 8 is a perspective view of the multi-remote controller according to the second embodiment. As shown in FIG. 8, the multi-remote controller 10 includes an operation unit 20 and a grip unit 30. Both the operation unit 20 and the gripping unit 30 have a rectangular parallelepiped shape, and the gripping unit 30 is provided below the operation unit 20.
On the upper surface of the operation unit 20, transmission units (50a, 50b) that emit infrared rays are provided. Further, a button 40a for operating the device is arranged on the peripheral surface 20a of the operation unit 20, and although not shown, operation buttons are also arranged on the peripheral surface 20b. However, the operation button is not provided on the peripheral surface 20c narrower than the peripheral surfaces (20a, 20b). Thus, it is not necessary to provide an operation button on the entire peripheral surface of the polygonal column shaped operation section, and it may be provided in a part.

FIG. 9 is an explanatory diagram of the multi-remote controller according to the second embodiment, where (1) shows a front view and (2) shows a rear view. As shown in FIG. 9 (1), “air conditioner” is displayed on the upper portion of the peripheral surface 20a, indicating that the peripheral surface 20a is an operation surface of the air conditioner. Under the display of “air conditioner”, a button 40 a written “power” is arranged. Further, as shown in FIG. 9B, “illumination” is displayed on the upper portion of the peripheral surface 20b, indicating that the peripheral surface 20b is an operation surface for illumination. Under the display of “illumination”, a button 40b written “power” is arranged.
Here, as in the first embodiment, the operation is facilitated by arranging only the buttons that are frequently used.
Although not shown, a learning connector is provided in the same manner as in the first embodiment, and it is possible to correspond to devices of various manufacturers.

FIG. 10 is a perspective view of the multi-remote controller according to the third embodiment. As shown in FIG. 10, the multi-remote controller 11 includes an operation unit 21 and a grip unit 31. Although the operation unit 21 has a rectangular parallelepiped shape, the gripping unit 31 has a cylindrical shape, and the gripping unit 31 is provided below the operation unit 21. Since the grip portion 31 has a cylindrical shape, it is easy to grip. Thus, the operation unit and the gripping unit do not necessarily have the same polygonal column shape.
On the upper surface of the operation unit 21, transmission units (50 a to 50 e) that emit infrared rays are provided. Further, buttons (41 a, 41 b) are arranged on the peripheral surface of the operation unit 21.

  Further, a bottom portion 32 is provided below the grip portion 31. The bottom part 32 has a shape wider than the grip part 31 and can stand by itself. By adopting a self-supporting shape, when the remote control is not used, it can be placed in an upright state, and loss can be prevented. In addition, it is good also as a structure where a weight is built in the bottom part 32 and it is hard to fall down.

FIG. 11 is a perspective view of the multi-remote control main body according to the fourth embodiment. FIG. 11 (1) shows a regular triangular prism-shaped remote control main body according to the first embodiment, in which a boundary portion between adjacent peripheral surfaces is rounded. FIG. 11 (2) shows a columnar shape in which the operation portion has an inverted quadrangular frustum shape and the grip portion has a base spread. FIG. 11 (3) shows a regular pentagonal prism shape for both the operation portion and the grip portion.
The multi-remote control shown in FIG. 11 (1) includes an operation unit 2 and a gripping unit 3. The operation unit 2 and the gripping unit 3 have a substantially triangular prism shape, but are rounded at corners. It has a safe shape that is hard to get injured when operating.
On the upper surface of the operation unit 2, transmission units (5 a to 5 d) that emit infrared rays are provided. Further, buttons (4 a to 4 e) are arranged on the peripheral surface of the operation unit 2. The button 4a is a power button, and the power is turned on / off by pressing the button 4a. The buttons (4b, 4c) are volume change buttons, and the buttons (4d, 4e) are channel change buttons. Further, similarly to the first embodiment, a dip switch 6 is provided.

The multi-remote controller shown in FIG. 11 (2) includes an operation unit 2 and a grip unit 3, and the operation unit 2 has a quadrangular frustum shape whose upper surface is wider than the lower surface. By exhibiting such a shape, it is possible to widen the arrangement interval of the transmission units (5a to 5e) that emit infrared rays, and it is possible to irradiate infrared rays over a wider range.
The grip portion 3 has a cylindrical shape, the peripheral surface 3a is round, and is easy to grip. Thus, the operation unit and the gripping unit do not necessarily have the same polygonal column shape. In addition, the grip portion 3 has a shape in which the base is widened, and the bottom portion 32 is widely provided. Therefore, since it has a shape that can stand on its own and is not easily toppled, it can be placed in an upright state when not in use. The self-supporting shape makes it easy to find the remote control and helps prevent loss.

The multi-remote controller shown in FIG. 11 (3) includes an operation unit 2 and a gripping unit 3, and the operation unit 2 and the gripping unit 3 have a regular pentagonal prism shape. By providing this operation unit, it is possible to operate five types of devices.
In addition, on the upper surface of the operation unit 2, transmission units (5 a to 5 f) that emit infrared rays are provided. By providing six transmission units, it is possible to irradiate infrared rays over a wider range, and convenience is enhanced.

(Other examples)
(1) An original operation button of a specific device may be provided in one place of the operation unit, and an operation unit with a learning function for an air conditioner and a light may be provided in another operation unit, for example. With such a configuration, it is possible to provide a remote controller that can learn the operation functions of the remote controller of another device to a genuine remote controller of a certain device.
(2) Each peripheral surface of the polygonal column shape constituting the operation unit does not necessarily need to be assigned to each device. For example, an operation surface is assigned to each type of radio wave (terrestrial digital, BS, CS) of television. Also good.
(3) The grip portion may be provided with a non-slip mechanism.
(4) The operation units on the polygonal or truncated pyramid may all be configured with original operation buttons of a specific device. For example, although the multi-remote controller of FIG. 1 has a triangular prism shape, all three operation units may be the original operation unit for lighting equipment. By doing so, it is easy for elderly people, dementia patients, and people with higher brain dysfunction to use the remote control, and it is easy to find the remote control body. It has the effect of being on, off and easy to use.
(5) In the embodiments, the example in which the lower surface of the gripping portion can be self-supported with the lower surface of the gripper as the ground side has been described. However, the present invention will be solved even if the upper surface of the operation portion can be self-supporting. It is possible to overcome this problem.
(6) In the embodiment, the operation unit 2 and the grip unit 3 have the primary color red as the base color, but other colors may be used as the base color. It is possible to provide various color variations according to the user's preference.

  The multi-remote controller of the present invention is useful as a remote controller for elderly people, patients with dementia, and persons with higher brain dysfunction.

1,10,11 Multi-remote control 2,21 Operation part 2a-2c, 3a-3c, 20a-20c, 30a, 30b Peripheral surface 3,31 Grasping part 4,4a-4g, 40a, 40b, 41a, 41b Button 5a- 5f, 50a, 50b, 51a to 51e, 500 Transmitter 6 Dip switch 7 Learning connector 8 Battery cover 8a, 8b Screw 9, 9a to 9d Infrared 32 Bottom 70 Learning unit 70a Receiver 71 Cable 100 Remote control W Width

In order to solve the above problems, a multi remote controller of the present invention is a remote control for use in electrical appliance, composed of three prismatic operating portion, a grip portion adjacent to the lower surface of the operation unit. And the operation panel of a different electrical appliance is arrange | positioned on the three surrounding surfaces of an operation part, and an infrared rays transmission means is provided in the upper surface of an operation part. The upper surface of the gripping portion is small in shape similar to the lower surface of the operation portion or small in a shape different from the lower surface of the operation portion, and can be self-supporting with the lower surface of the gripping portion as the ground side.
Therefore, the risk that the remote controller of the three electrical appliances is integrated into one and the remote controller is mistaken and does not operate even if an operation is performed is reduced. The gripping part can be gripped with one hand, and the operation panel can be operated with the thumb or index finger of the gripped hand.

Here, the three prismatic operating portion is not necessary boundary between adjacent circumferential surface is always acute, also include those smooth rounded without corners. Further, the peripheral surfaces of the operation unit may not be all the same shape, but may be partially or entirely different shapes.

In the multi-remote controller of the present invention, the lower surface of the gripping portion or the upper surface of the operation portion can be self-supporting .
Since the remote control itself can be self-supporting, the presence of the remote control is conspicuous and the risk of the remote control being buried around is reduced. In particular, for a patient with dementia or a person with higher brain dysfunction, since the remote control is self-supporting, the presence of the remote control is conspicuous and it is easy to find the remote control.
If the lower surface of the gripping unit and the upper surface of the operation unit are flat, the entire surface is grounded and is likely to stand on its own. In addition, if the bottoms of the gripping part and the upper part of the operation part are respectively widened, the ground contact area becomes large and it is easier to stand on its own. In addition, a leg that can stand on the lower surface of the gripping unit or the upper surface of the operation unit may be provided.

The infrared transmission means in the multi-remote controller of the present invention comprises two or more infrared transmission units having different transmission areas or different transmission directions . Since infrared rays can be transmitted over a wide range, infrared rays can be transmitted / received without directing the infrared ray transmission unit of the remote control to the infrared ray reception unit of the electrical appliance to be operated, and the convenience of remote control operation is improved. In particular, remote control operations are simple for patients with dementia and those with higher brain dysfunction.

The operation unit in a multi-remote controller of the present invention, the three prismatic are positive three prism. If it is a regular triangular prism , it is possible to provide operation panels of two to three types of electrical appliances on three peripheral surfaces. You may provide the operation panel of two types of electrical appliances using two peripheral surfaces among three peripheral surfaces.

The upper surface of the grip portion in the multi-remote controller of the present invention is preferably any one of the following a) to b ).
a ) Small and similar to the bottom surface of the operation unit.
b ) Small in shape different from the lower surface of the operation unit.

There are various combinations of shapes of the operation part and the grip part. For example, the operation unit may be a regular triangular prism and the gripping unit may be a regular triangular prism. Alternatively, the operation unit may be a regular triangular prism and the gripping unit may be a cylinder . When the operation unit is a regular triangular prism and the gripping unit is a regular triangular prism, the upper surface of the gripping unit may be the same shape and the same size as the lower surface of the operation unit, or may be similar to the lower surface of the operation unit and small. On the other hand, when the operation part is a regular triangular prism and the gripping part is a cylinder, the upper surface of the gripping part becomes smaller and different in shape from the lower surface of the operation part.

Claims (18)

A remote control used for electrical equipment,
A prismatic or truncated pyramid operating section;
A gripping part adjacent to the lower surface of the operation part,
An operation panel of an electrical appliance is disposed on a plurality of peripheral surfaces of the operation unit,
A multi-remote control characterized in that an infrared transmission means is provided on an upper surface of the operation unit.   The multi-remote control according to claim 1, wherein the multi-remote control can be self-supporting with the lower surface of the gripping portion or the upper surface of the operation portion as a ground side.   The multi-remote controller according to claim 1 or 2, wherein the infrared transmission means includes two or more infrared transmission units having different transmission areas or different transmission directions. In the operation unit,
The multi-remote control according to any one of claims 1 to 3, wherein the prismatic shape is a regular N prismatic shape, or the truncated pyramid shape is a positive N pyramid shape (N is 3 or more and 10 or less). The gripping part is
A regular polygonal column, a regular polygonal frustum, a cylinder, a cylindrical column, an elliptical column, or an elliptical columnar shape, or a shape having a shape that further spreads toward the lower surface side in those shapes,
The axis in the height direction of the operation part and the axis in the height direction of the grip part are coaxial.
The multi-remote control according to claim 4, wherein: The upper surface of the gripping part is
It has the same shape and the same size as the lower surface of the operation unit,
Similar to the lower surface of the operation unit and small, or
Small and different shape from the lower surface of the operation unit,
The multi-remote controller according to claim 1, wherein the multi-remote controller is provided.   The multi-remote control according to claim 1, wherein operation panels of different electrical appliances are arranged on a plurality of peripheral surfaces of the operation unit.   The multi-remote control according to any one of claims 1 to 7, wherein the number of operation buttons on the operation panel is smaller than the number of operation buttons on the original remote control of the electrical appliance to be operated. The operation buttons on the operation panel are:
In the case of a television, at least a power on / off button, a volume switching button, and a channel switching button are provided,
In the case of an air conditioner, at least a power on / off button is provided,
The multi-remote control according to claim 8, wherein at least a power on / off button is provided in the case of a lighting fixture.   The multi-remote controller according to claim 1, wherein the operation panel is provided with at least one of an operation button and a liquid crystal screen.   The multi-remote control according to any one of claims 1 to 10, wherein a battery storage box for a dry battery or a rechargeable battery is provided inside the grip portion.   The multi-remote controller according to any one of claims 1 to 11, wherein at least one of the operation unit and the gripping unit is given a strong and clear color.   The multi-remote control according to claim 12, wherein the operation unit and the grip unit are red, vermilion, or amber. A selection means is provided to select the model of the electrical appliance to be operated,
Allocation between the operation panel and the operation buttons of the electrical appliance of a specific model is stored in advance for each of the selection means,
The multi-remote control according to any one of claims 1 to 13, wherein the assignment between the operation panel and the electric appliance can be switched by the selection means.   15. The multi-remote controller according to claim 14, wherein the selection means is any one of a selection switch, a setting button, and a manufacturer code. A learning unit for data communication with the remote control body is further provided,
The learning unit learns the protocol executed by pressing the operation button of the original remote controller of the electrical appliance to be operated,
The multi-remote control according to claim 1, wherein a protocol learned by the learning unit can be assigned to an operation button of the operation panel.   The multi-remote control according to claim 16, wherein the learning unit is built in a remote control body. The remote control body has a data communication function that allows data communication with a computer.
The above-mentioned computer can download a remote control program for an electric appliance to be operated via the Internet, can transfer the downloaded remote control program to the remote control body, and can allocate the operation panel and a specific electric appliance. The multi-remote controller according to any one of claims 1 to 13,