FI85631C - STYRENHET. - Google Patents

Description

85631

CONTROL UNIT - STYRENHET

The present invention relates to a control unit for transmitting control information, in particular in a building control / monitoring-5 system, in which the control unit has a rotary control knob for adjusting the control information, a scale rotating the control knob and a programmable group of buttons for the control unit.

The object of the invention is to provide a flexibly modifiable, multi-purpose control unit with which a user, mainly an apartment resident, can announce control measures for lighting, heating or other similar quantity in a house with an electronic system controlling and monitoring all electrical equipment. Such a system is an integral part of the so-called to a smart house. The control unit replaces light switches and controls as well as any other additional controls.

20 'Especially in systems with a very large user base, the user interface must be so illustrative and simple that the user can know what effect is achieved by a familiar control function, such as knob turning, even if the user has not seen that user interface before. The user must be able to visually communicate the current value and the new control value to the variable. The interface should entice the resident to use the user interface and not be a barrier to its use. The functions of the user interface should be 3Ό programmable so that it is suitable for any major adjustment in the house. In addition, it must be affordable.

The control unit according to the invention is characterized in that a control group is used to select the control target of the control knob and / or to convey other information to the system, and that the scale rotating the control knob is a system-controlled, programmable semiconductor lamp or information to be obtained.

5

Preferred embodiments of the invention are set out in the other claims.

For example, the intelligent control system allows a completely new control thinking for 10 lighting conditions: Especially in the most demanding space of the apartment, the living room, where there may be a lot of luminaires, In this way, the system can be pre-programmed for cleaning and atmospheric evening parties, as well as other Lighting situations in which the focus of the lighting varies. The control unit is suitable for both pre-programming of situations 20 and situation selection.

The control unit according to the invention has been developed taking into account both the control of the system and the requirements of the user community. The control unit acts as a room-specific local terminal, so that the same quantities can be controlled from several parallel rooms in the same spaces. Parallel control units can also be programmed to control different quantities, for example one for lighting and one for temperature. With the control unit, it is possible to carry out wide-ranging control * actions on other: -30 spaces within the system.

* "In the following, the invention will be described in more detail by way of example with reference to the accompanying drawings, in which

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Figure 1 shows a control unit according to the invention.

3,85631

Figure 2 shows the structure of the control system.

Figure 3 shows the control unit in cross section at the button stick -5.

Figure 4 shows the structure of the buttons.

Fig. 1 shows, for example, a wall-mounted control unit with a control knob 2 with scales 3 placed on the front panel 1 and a group of buttons consisting of seven consecutive pairs of buttons 4, 5, in which the buttons of the pair are arranged side by side. The control variable is set with knob 2, which is an optical or galvanic potential ... 15 meters, and surrounded by LED lamps; Box 3. It displays the current value as a bar display around the knob and the setpoint as a single lamp of different colors. The display mode and colors can be selected programmatically. For example, it is good to distinguish between display modes and colors: '20 temperature and lighting controls. The control unit is further provided with LED column rows 6, 7 of the same height as the buttons, located on the inside of the button groups, which show, for example, a red light for the button being pressed and a green light ... 25 for the other buttons. In addition, the control unit has an end piece 8 and a two-digit number above the scale. . numeric display 9, which shows the middle point of the scale as a numerical value. It can also be used to continuously display the current value or setpoint determined by the knob position.

Fig. 2 shows the structure of the system. The control unit 14 communicates with the room-specific node 12 via a bidirectional optical or galvanic digital connection. The control unit is connected to a connecting line with a detachable connector (not shown), which is also low-voltage, so that the user can change the control unit himself, for example when the control requirements increase, when more buttons are needed.

The adjustment item is selected with the buttons. The operation of all buttons 10 can be changed programmatically. The user can change the text or symbol describing the operation of the cover plate to the button by means of a replaceable cover plate.

The mechanical structure of the control unit is implemented in such a way that 15 in the same mold can be made from a control unit with: · * different number of button pairs. The number of button pairs varies depending on the needs of the application. In this case, it is essential that: * · a separate mold is not required for each unit size.

This is implemented so that the base 15 of the control unit and: **: 20 the electronic circuit board 16 (Fig. 3) can be cut: ***: shorter than the full number (e.g. eight). End piece 8 locks the buttons in place. The circuit board has sensors 17, 18 for the buttons, which are touched by the pin 19, 20 on the buttons when the button is pressed. The outer edge of each button 25 has a claw 21, 22 fitted to the side edge 23, 24 of the base 15 so that the sensor \ 'operates. In addition, the central part 25 of the control unit on the sides is a bit * · .: kot 26, 27, which act as shafts. The buttons are pushed into place from the end of the rail and locked in place with the end-30 lever 8 when all the buttons are in place. The buttons 4, 5 have troughs 28, 29 to be fitted to the shafts at the inner edges, as shown in Fig. 4. The buttons can also be shaped to be inserted from above.

35 The width of the control unit corresponds to the width of the wall switches currently in use. Its length varies depending on the number of buttons 5,85631. Since the control unit can be made entirely for surface mounting, there is no disadvantage of length variations.

5 In order to simplify the wiring, the connection of the control unit to the system has been implemented in parallel, so that several multi-pole wires coming from a room-specific node can be connected to several controllers from the control unit.

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Modern surface mount technology and purpose-tailored ASIC circuits make the electronics in the control unit compact and inexpensive.

It will be apparent to those skilled in the art that the various embodiments of the invention are not limited to the above example, but may vary within the scope of the claims set forth below.

Claims (11)

1. A control unit for transmitting control signals, especially in the control / monitoring system of a building, which control unit (14) is provided with a rotatable control knob (2) for adjusting the control signal, a scale (3) around the control knob and a programmable group. push buttons (4,5), which control unit transmits the control signal set with the control button to the system, characterized in that with the group 10 push buttons (4,5) the control object of the control button is selected and / or transmits other information to the system, and that the scale around the control button is a system-controlled, programmable LED or LCD scale that provides information about the system's measurement quantities, about setpoints used as control signals or about the corresponding. Control unit according to claim 1, characterized in that the group of push buttons consists of one or more pairs of push buttons located next to each other. : -: 20 Control unit according to claim 1 or 2, characterized in that several quantities can be indicated on the scale at the same time, such as setpoint and actual value. Control unit according to any of the preceding claims, characterized in that the control knob (2) is an optical or galvanic potentiometer or other corresponding means by which the controlled quantity is transmitted in digital or analog form for transmission to the control / monitoring. [· 30 system. Control unit according to any of the preceding claims, characterized in that the control unit is connected: to the system with a two-way optical or galvanic connection. 9 85631 Control unit according to any of the preceding claims, characterized in that the control unit identifies its address. Control unit according to any of the preceding claims, characterized in that each push button is provided with a replaceable cover plate on which is a symbol or text describing the function of the button. Control unit according to any of the preceding claims, characterized in that a numeral view (9) for the center of the scale or the equivalent is placed above the scale. Control unit according to any of the preceding claims, characterized in that it is connected to a coupling line (12) for low voltage with a detachable connector. ... 20 Control unit according to any of the preceding claims, characterized in that a series of LEDs (6,7) are indicated inside the groups of push buttons, which indicate the button being pressed and other information about the system. 25 Control unit according to any of the preceding claims, characterized in that the control unit is provided with a circuit board on which is provided the sensors (17, 18) for the push buttons which the push button touches when pressed, that '. The outer edge of each pushbutton is fitted into a cutter (23,24) on the side of the control unit bottom (15) in such a way that the button can be pushed down the distance needed for the sensor to function, that one or more rails run in the middle of the control unit ( 26,27) around which the grooves (28,29) in the inside edge of the pushbuttons can be fitted.