RU147240U1 - ELECTRIC TOUCH SWITCH - Google Patents

Abstract

1. An electrical touch switch including a sensor module, a first power supply module and at least one executive module, in which the sensor module is used to receive a signal from the user and control the actions of the executive module in accordance with the user's actions, the executive module is used to connect / disconnect the load from the power supply, the first power supply module is used to supply voltage to the sensor module and the executive module, characterized in that the sensor module is made with a multi-touch screen that supports the function of scrolling screen scenes in vertical and / or horizontal directions , with the ability to support graphics and animation reflecting the functional state of the electrical touch switch and / or the theme of the screen scene, while the initial and any subsequent installation of the electrical touch switch in the electrical system of the room includes an automatic and manual mode, and the first module of the communication line controller, the M-th module of the communication line controller, the M-th power supply module, the M-th executive module, where the index M takes values from 2 to N, are included in the electric touch switch, while the first the power supply module provides the supply voltage to the sensor module and the first module of the communication line controller, the M-th power supply module provides the supply voltage to the M-th module of the communication line controller and the M-th executive module, while communication between the sensor module and at least one executive module is carried out by means of

Description

The utility model relates to the field of electrical engineering and can be used to control the load, in particular, lighting devices.

Currently, lighting control systems for areas and premises for various purposes are widely used. It can be domestic premises, trade, exhibition, industrial or any other premises where multi-zone lighting is used. They allow you to control many lamps and groups of lamps to illuminate certain areas. Today, there are many types of area lighting control systems. The differences between them are, first of all, in the method of transmitting and processing data (control signals) coming from a terminal (in the simplest version - a mechanical switch) or control terminals, and designed to control actuators associated with various loads, including sources Sveta. To transmit control signals, these systems use all kinds of analog and digital communication technologies, both wired and wireless, based on radio or infrared communications. Actuators in such systems, depending on the type of load, are usually electromagnetic or electronic relay switches. But all these systems are united by one problem - the problem of the lack of a friendly and intuitive interface, an interface that does not require special knowledge and long training, an interface for “housewives”.

Known electric switch with a touch screen multi-touch, which includes a touch screen, divided into many zones. Each area of the touch screen is aligned with and controls one power line. Zones on the touch screen are formed in advance during the production cycle, and are indicated on the screen surface by the pattern (CN 03166860 (U), Н03К 17/96, 08.28.2013, D1). The disadvantage of this switch is the presence of hard program settings for the screen and the number of switched loads limited by geometric dimensions.

A known electrical installation system comprising an installation device, switching load, a second installation device with sensory controls, a two-wire communication line connecting both installation devices and a module for powering the second installation device (RU 2012131151/07, H04B 3/54, 12/21/2010, D 2). The specified device is selected as the closest analogue. The disadvantage of this system is the limited capabilities of the second touch installation device, and, as a consequence, the limitation of the number of independent loads.

The technical result of the invention is the expansion of the functionality of the electric touch switch.

The technical result is achieved in that in an electric sensor switch including a sensor module, a first power supply module and at least one executive module, in which the sensor module is used to receive a signal from a user and control the actions of the executive module in accordance with user actions, the executive module is used to connect / disconnect the load from the mains, and the power supply module is used to supply voltage to the module with nsora and an execution unit. The sensor module is made with a multi-touch screen that supports the function of scrolling screen scenes in the vertical and / or horizontal directions, with the ability to support graphics and animations reflecting the functional state of the electric touch switch and / or theme of the screen scene. To do this, the initial and any subsequent installation of the electric touch switch in the room electrical system (the term room electrical system should be understood as a set of room / room power systems having a single, disconnected connection to an external power supply network) can be done automatically without user intervention and manually.

The automatic installation consists of: establishing communication with the sensor module through the first communication line controller module, alternately with all communication line controller modules present in the device with indices from 2 to N, storing this information in the volatile memory, collecting information about the readiness for operation of control channels from 2 to N, and, if it is possible to detect a malfunction in the control channel or installation errors, the corresponding message will be displayed on the monitor of the sensor module.

Manual installation consists in: selecting a screen scene, linking the screen scene to a specific load.

The electric touch switch also includes the first module of the communication line controller, the Mth module of the communication line controller, the Mth module of the power supply, where the index M takes values from 2 to N. Moreover, the first power supply module provides voltage to the sensor module and the first module of the controller of the communication line, the Mth module of the power source provides the voltage of the Mth module of the controller of the communication line and at least one Mth executive module, while the communication between the sensor module and at least one of the specified Executive module is carried out over the communication line (for example, through the conductive tracks of the printed circuit board) according to any known protocol by means of the first communication controller module connected to the sensor module, and the Mth communication controller module connected to at least , one executive module. At least one Mth load is connected to any Mth executive module. The load of the executive module should be considered all current consumers connected to the executive module.

The device with the above set of features allows for the balanced use of programmable during installation of any level (initial or any subsequent) and hard-coded settings for the operation of the electric touch switch, a convenient interface with bidirectional (vertical and horizontal) scrolling and an unlimited number of channels "sensor module-first communication line controller module - M-th communication line controller module - M-th executive module - M-th load ”(hereinafter referred to as the M-th control channels), to achieve the indicated technical result.

In FIG. 1 is a diagram of an electric touch switch according to paragraph 1 of the utility model formula.

In FIG. 2 shows a diagram of an electric touch switch according to 7-9 formulas of a utility model.

In FIG. 3 shows a diagram of an electric touch switch in a distributed (multi-block) form factor according to 10-12 utility model formulas.

The operation of the electric touch switch is as follows.

The electric touch switch according to paragraph 1 of the formula of the utility model is installed stationary in a convenient place for the user. The power supply in accordance with current standards is connected to the inputs of all modules of the power source and the executive modules that are part of the electric touch switch. The outputs of the executive modules connect the corresponding load. Actuators can be electronic and / or electromagnetic. Obviously, the type of executive modules and their number depends on the problem being solved. When according to p.p. 1-9 of the formula (Fig. 2), the executive modules are structurally made in a single housing with other modules from the electric touch switch, the power supply is connected to the first power supply module, which is unique in this case, and the electrical connections in accordance with FIG. 2 are made in the manufacture of an electric touch switch.

It is quite possible cases (remote, energy-intensive load, the supply voltage for the load is different from the voltage in the mains, a pre-formed electrical system of the room, etc.), when it is advisable to divide the electric touch switch into at least two blocks (the first block and M-th blocks), then between the first module of the communication line controller and the M-th module of the communication line controller there is a communication line, while the power supply network is connected to each of the power supply modules and execution executive modules I have an electric touch switch according to p.p. 10-12 formulas (Fig. 3). To simplify this procedure according to paragraphs. 10-12 of the formula, the sensor module connected to the first module of the communication line controller and the first power supply module, which provides all modules from the first block with the supply voltage Uп, are made in a single housing in the wall switch form factor, and any Mth block consists of M-th module of the communication line controller connected to the M-th executive module, and the M-th module of the power source, providing the supply voltage Uп to all modules from the specified block, while it is made in a single case in the form factor of the device installed on and a DIN rail and / or adapter for direct connection to an electrical outlet, and / or a compact device for implantation in a load enclosure, etc.

In any embodiment of the electric touch switch according to the formula, the power supply modules provide the supply voltage with the sensor module Up, all communication line controller modules and all executive modules immediately after connecting them to the power supply.

After the initial supply voltage to the electric touch switch, the initial installation of the device begins automatically and takes place without user intervention. The sensor module through the first module of the communication line controller establishes communication in turn with all the M-modules of the communication line controller present in the device, stores this information in the volatile memory, collects information about the readiness for operation of the M-th control channels. If a malfunction in the control channel or an error during installation on the monitor of the sensor module is detected, a corresponding message is displayed, for example: “there is no communication with the executive module”, or “the load is not connected”, or “carefully! short circuit". Messages are accompanied by visual animation that recommends the user the order of further actions. The absence of malfunctions or errors automatically transfers the electric touch switch to the next installation mode - manual. It should be noted that the automatic initial installation mode starts once for a specific set of control channels. For the correct operation of the device, any change in the number of control channels will lead to a forced reset of all settings, and a second initial installation. To force a reset of all settings on the sensor module, a subtle and inaccessible mechanical switch in the form of a button is provided (not shown in the figures). A simple disconnection from the mains power supply will not lead to a reset, as The sensor module and the M-th actuating modules, according to Clause 3 of the formula, contain an independent power supply that ensures that the settings of the last installation are saved and all loads are disconnected from the power supply when the electric touch switch is disconnected from the supply voltage for a long time.

Manual installation mode is carried out by the user, based on his wishes and needs and already completed load connections, i.e. with fully formed control channels. Non-volatile memory of the sensor module stores libraries of screen savers and animated videos from which the user can create a screen scene for each control channel and view the result on the monitor of the sensor module. The electric touch switch provides the ability to install any screensavers and animated videos from the specified library for each of the states of any of the control channels, namely: the mode of the on control channel, the mode of the off control channel, standby mode, "sleep" mode. To expand the selection of screen scenes and functionality of the electric touch switch as a whole, according to p. 4-5 formulas, the user can, during the manual part of the installation of the electric touch switch, set the current date and time using the sensor module. In addition to displaying this information on the monitor of the sensor module in a user-friendly form, the date and time data can be used by the user to control the timer in each control channel independently. Timer settings are not necessary for installation and can be performed by the user at any time.

Formed from the screensavers and / or animated clips, the screen scene by the means of the sensor module is attached to one or more (at the request of the user) control channels. A simple example of a screen scene can be, for example, a three-dimensional image of switch keys, buttons, knife switches, etc., an indication in the form of pictograms of the geographical location of the load, a fixed color scheme, in standby mode - the clock face, and in “sleep” mode occasionally sparks running across the monitor (to make it easier to find in the dark).

Simple and functional control of the sensor module means provides a monitor screen of the specified module. It is made using multi-touch technology, supports simultaneous horizontal and vertical scrolling, which allows you to create an intuitive interface and significantly expands the user’s ability to work with the electric touch switch. Introduced into the sensor module, according to claim 2, formulas that illuminance and proximity sensors (not shown in the figures) can significantly reduce the power consumption of the electric touch switch, and, more importantly, facilitate its search in the dark by using the optimal brightness of the screen backlight , and completely turn off the backlight when there is no user within the range of the proximity sensor.

Thus, the device according to claim 1 of the formula solves the problem of expanding the functionality of the electric touch switch.

Claims (12)

1. An electric touch switch including a sensor module, a first power supply module and at least one executive module, in which the sensor module is used to receive a signal from the user and control the actions of the executive module in accordance with the actions of the user, the executive module is used to connect / disconnect the load from the power supply, the first power supply module is used to supply voltage to the sensor module and the executive module, excellent in that the sensor module is made with a multi-touch screen that supports the function of scrolling screen scenes in the vertical and / or horizontal directions, with the ability to support graphics and animations reflecting the functional state of the electric touch switch and / or theme of the screen scene, while the initial and any subsequent installation of the electric touch switch in the electrical system of the room includes an automatic and manual mode, and the electric touch switch given the first module of the controller of the communication line, the Mth module of the controller of the communication line, the Mth module of the power supply, the Mth executive module, where the index M takes values from 2 to N, while the first module of the power supply provides voltage to the sensor module and the first module of the communication line controller, the M-th module of the power supply provides the M-th module of the controller of the communication line and the M-th executive module with voltage, and communication between the sensor module and at least one executive module is performed by th module is connected to the sensor module of the first link controller and the M-th link controller module connected to the at least one actuator unit. 2. The electric touch switch according to claim 1, characterized in that the sensor module further comprises light sensors and / or proximity sensors that ensure, in accordance with their purposes, the minimum energy consumption for illuminating the multi-touch screen and / or turning on the specified illumination only when user approximation. 3. The electric touch switch according to any one of paragraphs. 1 and 2, characterized in that the sensor module and the M-th executive modules additionally contain an independent power source, which ensures that the settings of the last installation are saved and all loads are disconnected from the power supply when the electric touch switch is disconnected from the supply voltage for a long time. 4. Electric touch switch according to any one of paragraphs. 1 and 2, characterized in that the sensor module is configured to calculate and display the "date / time", and the initial and any subsequent installation additionally include the installation of the "date / time". 5. The electric touch switch according to claim 3, characterized in that the sensor module is configured to calculate and display a “date / time”, and the initial and any subsequent installation further includes setting a “date / time”. 6. The electric touch switch according to claim 4, characterized in that the sensor module is configured to calculate and display a “date / time”, and the initial and any subsequent installation further includes setting a “date / time”. 7. Electric touch switch according to any one of paragraphs. 1, 2, 5, 6, characterized in that it contains a supply voltage module connected to each of the modules: a sensor module, a first communication line controller module, M-th communication line controller modules, M-th executive modules. 8. The electric touch switch according to claim 3, characterized in that it comprises a supply voltage module connected to each of the modules: a sensor module, a first communication line controller module, M-th communication line controller modules, M-th executive modules. 9. The electric touch switch according to claim 4, characterized in that it comprises a supply voltage module connected to each of the modules: a sensor module, a first communication line controller module, M-th communication line controller modules, M-th executive modules. 10. Electric touch switch according to any one of paragraphs. 1, 2, 5, 6, 8, 9, characterized in that it is made of at least two blocks, the first of which consists of a sensor module connected to the first module of the communication line controller, and the first power supply module, providing the supply voltage Uп is all the modules from the first block, and is made in a single housing in the wall switch form factor, and the М-th block consists of the М-th communication line controller module connected to the M-th actuating module, and the М-th power supply module providing the supply voltage Uп all the modules of the specified block, the M-th block is executed in a single package in the form factor devices mounted on DIN-rail and / or an adapter for direct connection to a power outlet, and / or a compact apparatus for implantation in the body load. 11. The electric touch switch according to claim 3, characterized in that it is made of at least two blocks, the first of which consists of a sensor module connected to the first module of the communication line controller, and the first module of the power supply, providing voltage Uп all modules from the first block, and is made in a single housing in the wall switch form factor, and the М-th block consists of the М-th communication line controller module connected to the М-th actuating module, and the М-th power supply module, providing tense By supplying up power to all modules from the indicated unit, the M-th unit is made in a single housing in the form factor of a device mounted on a DIN rail, and / or an adapter for direct connection to an electrical outlet, and / or a compact device for implantation into the load case. 12. The electric touch switch according to claim 4, characterized in that it is made of at least two blocks, the first of which consists of a sensor module connected to the first module of the communication line controller, and the first module of the power supply, providing voltage Uп all modules from the first block, and is made in a single housing in the wall switch form factor, and the М-th block consists of the М-th communication line controller module connected to the М-th actuating module, and the М-th power supply module, providing tense By supplying up power to all modules from the indicated unit, the M-th unit is made in a single housing in the form factor of a device mounted on a DIN rail, and / or an adapter for direct connection to an electrical outlet, and / or a compact device for implantation into the load case.

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