CZ305821B6 - Device to actuate and control activity of darkening system driving mechanism - Google Patents

Abstract

The present invention relates to a device to actuate and control activity of darkening system driving mechanism, particularly slats (2) of internal, external and intermediate Venetian blinds, wherein the driving shaft (7) is connected to a driving electric motor (111) of a motor block (11), which is connected via a control block (8) to an accumulator battery (91) of a power supply block (9) being connected to a photovoltaic module (12). Said control block (8) is further connected to a transmitting and receiving block (10) and a positioning element (13). At least the control block (8), the transmitting and receiving block (10) and the positioning element (13) are removably mounted in the interior of an upper section (1) and the photovoltaic module (12) is secured outside said upper section (1) interior.

Description

Equipment for controlling and controlling the operation of the drive system of dimming systems

Field of technology

The invention relates to a device for controlling and controlling the operation of the drive system of dimming systems, such as external, internal or window vertical and horizontal blinds, roller shutters and plush ones.

Prior art

At present, a number of systems and construction concepts with different arrangements of mechanical and functional elements are used to control the lowering, pulling out and tilting of the slats of blinds or other shading techniques. The drive devices are generally controlled by mechanical traction elements, realized in the form of a chain, cord or crank, or by a motor which is connected to the electrical network. The disadvantage of motor control systems for shielding systems is the massive design of the drive systems and especially the need to lead the electric cable to the motor, which in most cases means the need to jam it in the wall. Therefore, these systems are mostly used for outdoor blinds and especially for large-area systems, such as shop windows, glazed entrance halls of social facilities or restaurant and hotel complexes, etc.

Mechanisms for controlling blinds by means of winding cords are described, for example, in the solutions described in EP 380346, US 5 184 660, EP 554212 or CZ 8114 U1. The drive of the drive shaft of the inner louver by means of a tension element guided in the head rail by guide channels is then described, for example, in EP 594556 or CZ 7867 U1.

Although the above and other solutions are thoroughly elaborated both in terms of design and functionality, in accordance with the development of technology, an effort is made to improve these solutions to ensure maximum ease of operation with great user comfort, or to ensure automation of certain tasks without necessity. operator interaction, depending on the intensity of the light incident on the screening device. For example, a solution is known from FR 2 860 545, which solves the control of blinds by means of a capacitor charged by a solar cell in the form of a photodiode when the energy obtained is used to tilt the blinds. The disadvantage of this solution is that the energy obtained is sufficient for only one tilting of the slats after dark, is not sufficient for pulling out or lowering the blind and does not allow the blind to operate at night. The use of a solar cell for powering an information system on the unauthorized manipulation of blinds, eg during burglary, is described in WO 03/083 802 and WO 02/41 740 addresses the use of solar cells as an integral part of blinds. The solar cells are placed on the moving parts of the blinds, while the control is solved by means of infrared transmission. The use of both this solution and other systems for wireless control of dimming systems equipped with electric motors connected to a driver with a microcontroller connected to an infrared receiving circuit connected via a battery to a photovoltaic cell is limited by low infrared transmission and photovoltaic cell usability only when sufficient potential for direct battery charging. The photovoltaic cell is used only to obtain energy and the battery voltage must be adapted to all circuits in the system connection. The disadvantages of infrared transmission are essentially solved by a device according to CZ 16468 U1, in which the dimming system is connected by a shaft to an electric motor, which is connected to an exciter connected to a microcontroller and a power accumulator. A radio receiving circuit with an antenna is connected to the microcontroller for connection to a radio transmitter, this radio receiving circuit also being connected to a battery. This device allows remote wireless control over a much greater distance and at the same time is able to work with the battery at a significantly lower voltage. The battery is charged by a photovoltaic cell even in very low light intensity, which is another advantage. The device is then equipped with other elements for measuring light intensity, regulating the speed of the electric motor or measuring mechanical stops of movement of system elements, etc.

- 1 CZ 305821 B6

The object of the present invention is to present a new device for controlling and controlling the operation of the drive system of dimming systems, which by combining long-proven designs of blind drive systems and new knowledge in transmission technology would create one integral unit that would simplify and automate operator activities so the system was controllable even from a greater distance without the need for mechanical manipulation of the traction elements.

The essence of the invention

This object is achieved by the invention, which is a device for controlling and controlling the operation of the drive system of dimming systems, especially slats of internal, external or window blinds, where the drive shaft is connected to the drive electric motor of the motor unit, which is connected to the accumulator battery. connected to the photovoltaic module, the transmitting and receiving block and the positioning member being further connected to the control block, the essence of which consists in that at least the control block, the transmitting and receiving block and the positioning member are removably housed in the interior of the upper profile and the photovoltaic module. mounted outside the inner space of the upper profile.

Another aspect of the invention is that the power supply block and the drive electric motor are preferably slidably slidable laterally into opposite end portions of the upper profile, and portions thereof projecting outwardly from the upper profile are covered by side covers attached to the upper profile.

It is also an object of the invention that the power supply block is formed by a rechargeable battery housed in a molded housing, the molded plate base of which is adapted for removable mounting in the upper profile and for mounting a transmitter and receiver block formed by a printed circuit board equipped with conventional electronic components. wherein, in order to easily access the rechargeable battery, the front arm of the upper profile is provided with a handling opening covered by a removable cover at its location.

It is also an object of the invention that the motor block is formed by a shaped body in which a driving electric motor is housed and whose support base is adapted for removable mounting in the upper profile.

In a preferred embodiment, the positioning member consists of a calibration element and a positioning counter, wherein the calibration element is mounted on the drive shaft and the positioning counter is mounted on the base plate of the control block, the calibration element being formed by a disk mounted on the drive shaft and having circumferentially spaced cutouts. and the positioning counter is formed by two sensors mounted opposite each other on both sides of the calibration element. The calibration element is then set on the drive shaft by a locking ring.

The new invention has the advantage that the device is independent of any external energy source, and thus it is not necessary to carry out any construction modifications of the interior or exterior of the buildings during its installation. The simplicity and compactness of the design allows it to be used to replace existing powertrains without the need to modify window or door frames. A significant benefit is the high comfort of operation using a simple remote control, which allows the control of shading systems by all groups of people, including children or immobile elderly or sick people, who can easily regulate the intensity of room lighting as needed.

Explanation of drawings

Specific examples of the invention are schematically illustrated in the accompanying drawings, in which Fig. 1 is a front elevational view of the device,

Fig. 2 is a plan view of the device of Fig. 1, Fig. 3 is a front axonometric view of the device of Fig. 1 obliquely from the right, Fig. 4 is a front axonometric view of the device of Fig. 3 inserted into the upper profile. Fig. 5 is a rear axonometric view of the device of Fig. 3 inserted into the upper profile of the dimming system, Fig. 6 is a front axonometric view of the structural unit of the positioning member obliquely from the right, Fig. 7 is a rear axonometric view of the structural unit of Figs. Fig. 6 is a plan view of the structural unit of Fig. 7, Fig. 9 is a front axonometric view of the drive motor clutch structural unit, Fig. 10 is a rear axonometric view based on an embodiment of a device inserted in an inter-window profile including a rechargeable battery; Fig. 11 is a rear axonometric view of an alternative embodiment of the device inserted in the window profile, where the accumulator battery is stored outside the window profile.

Examples of embodiments of the invention

An embodiment of the device according to the technical solution will be described on an example applied for incorporation into the shaped upper profile 1 of interior blinds, where the upper profile 1 is adapted to be mounted on a window frame (not shown). The blinds are formed by a set of vertical slats 2 suspended on ladders 3, allowing them to be tilted, and provided with winding straps 4 to allow them to be raised or lowered. The end portions of the elements 3, 4 of conventional construction are mounted in winders 5 built into beds 6, which are detachably arranged in the upper profile 1. The winders 5 are connected by a drive shaft 7 extending longitudinally through substantially the entire upper profile 1.

The actual functional part of the device consists of a control block 8, preferably formed by a base plate with printed circuits attached by means of spacers 81 to the bottom wall 103 of the upper profile 1, and further to a supply block 9, transmitter and receiver block 10, motor block 11, photovoltaic module J2, a positioning member 13 and a control block (not shown), formed for example by a remote control button. The structural elements 8, 9, 10, 11, 12 of the device are then interconnected by cabling (not shown) generally routed in the inner space of the upper profile 1 of the blind. The actual design and interconnection of the elements 8, 9, 10, 11, 12 is realized by known technical and electronic means described, for example, in CZ 16468 U1.

The power supply block 9 is formed by a rechargeable battery 91, which is housed in a shaped housing 92. The housing 92 is removably slid with its shaped plate base 921 in one of the end portions of the upper profile 1, which is provided with a handling opening 1001 at its front arm 101. covered by a removable cover 1002 and for easy replacement of the accumulator battery 91. A transmitter and receiver block 10 is housed in the board base 921, which is formed by a printed circuit board equipped with common electronic components (not shown) and is wired to the accumulator battery 91. formed by a drive electric motor 111, which is coupled via a coupling 14 to an end part of the drive shaft 7, which is opposite to the location of the supply block 9. The drive electric motor 111 is mounted in a shaped

-3GB 305821 B6 body 112, which is slid by its support base 1121 into the second end part of the upper profile 1, and is connected to the respective electronic elements of the control block 8. The photovoltaic module 12 is preferably formed by a solar cell which is located on the rear arm. 102 of the upper profile 1, i.e. in the part of the maximum possible exposure to sunlight, and which is connected via a rechargeable module (not shown) to the rechargeable battery 9U The positioning member 13 consists of a calibration element 131 and a positioning counter 132, where the calibration element 131 is in the described case on the drive shaft 7 and provided with circumferentially spaced cutouts 133, and the positioning counter 132 is formed by two sensors mounted opposite the calibration element 131 directly on the base plate of the control block 8. The correct position of the calibration element 131 on the drive shaft 7 is realized by a locking ring 15. , which is preferably also used at the opposite end of the drive shaft 7 for the fixture determining the desired position of the clutch 14 of the drive electric motor 111, as can be seen, for example, from FIGS. 2 and 3.

Attached to the end portions of the upper profile 1 are side covers 105 covering the plate base 921 of the power supply block 9 and the support base 1121 of the drive electric motor 111, which are not inserted into the upper profile 1 and project laterally outwardly therefrom. The material design of individual structural and functional elements and their mutual stripping is solved in a standard way according to the relevant normative regulations and is not the subject of this solution.

When assembling the device, the control block 8 is placed in the upper profile 1, in which the beds 6 with the winders 5 are arranged, by snapping on the spacers 81 mounted in its lower wall 103. Subsequently, the transmitting and receiving block 10 mounted in the plate base is inserted. 921 of the supply block 9 and this unit is inserted laterally into the upper profile 1 and its cables are set to connect to the control block 8. Then a calibration element 131, i.e. a disk, is inserted in the selected place and the drive shaft 7 is inserted into the upper profile 1. on which the calibration element 131 and the locking rings 15 are successively threaded, by means of which the drive shaft 7 is set in the working position. Next, the drive electric motor 111 is slid into the body 112 and this unit is inserted into the upper profile 1, and by means of the coupling 14 the drive electric motor 11 is coupled to the drive shaft 7 and its cables are prepared for connection to the control unit 8. the arm 102 of the upper profile 1 fixes the photovoltaic module 12 and all the cables of the elements 9, 111, 12 are connected to the control element 8. This prepares the device for calibration.

Calibration of the device function is performed by means of a remote control equipped with a setting and control mode with the appropriate menu, where the buttons set the individual positions of the louvre slats 2 and by evaluating the parameters in the positioning member 13 the device can be electronically controlled. The control is independent of any external power source when the electric drive motor 111 is powered by a rechargeable battery 91 charged by the photovoltaic module 12.

The described embodiment is not the only possible construction according to the invention, but according to the shape and type of the upper profile 1 the individual functional elements 8, 9, 10, 11, 12 can be adapted, both in shape and space, when they can be arranged differently in the upper profile. J_. In some cases it is not necessary to use locking rings 15 to position the drive shaft 7, and the actual fixation of the individual elements 8, 9, 10, 11 in the upper profile 1 can be by other conventional technical means. Even the control and setting of the device functions does not have to be realized by remote control but in certain cases, but in certain cases the push-button controller could be placed directly on the upper profile 1 or one of the side covers 105. Power supply board base 921 and drive support base 1121. of the electric motor 111 can then be designed so as to allow sliding into the upper profile 1 from above.

In the embodiment of the device for placement in the window profiles, the side covers 105 are then not used and the accumulator battery 91 can alternatively be located both in the upper profile and outside it, as can be seen from Fig. 9 and Fig. 10.

-4CZ 305821 B6

Industrial applicability

The device is designed to control and manage the operation of the drive system of blackout systems, such as outdoor, indoor or window vertical and horizontal blinds, shutters and plush, and can be built into various types of blackout systems, including window blinds, whose basic structural element is upper profile.

Claims (8)

PATENT CLAIMS Device for controlling and controlling the operation of the drive system of dimming systems, in particular slats (2) of internal, external or window blinds, wherein the drive shaft (7) is connected to the drive electric motor (111) of the motor block (11) (8) connected to a rechargeable battery (91) of the power supply unit (9) connected to the photovoltaic module (12), wherein a transmitting and receiving block (10) and a positioning member (13) are further connected to the control block (8), characterized in that that at least the control block (8), the transmitting and receiving block (10) and the positioning member (13) are removably housed in the inner space of the upper profile (1) and the photovoltaic module (12) is mounted outside the inner space of the upper profile (1). Device according to claim 1, characterized in that the supply block (9) and the drive electric motor (111) are preferably slidably slid laterally into opposite end portions of the upper profile (1), their portions projecting outwards from the upper profile (1). they are covered by side covers (105) attached to the upper profile (1). Device according to claims 1 and 2, characterized in that the power supply block (9) is formed by a rechargeable battery (91) housed in a molded housing (92), the molded plate base (921) of which is adapted for removable mounting in the upper profile (1), and on the one hand for accommodating a transmitting and receiving block (10) formed by a base plate with printed circuits fitted with conventional electronic elements. Device according to Claim 3, characterized in that, in order to easily access the accumulator battery (91), the front arm (101) of the upper profile (1) is provided with a handling opening (1001) covered by a removable cover (1002) at its location. Device according to one of Claims 1 to 4, characterized in that the motor block (11) is formed by a shaped body (112) in which a drive electric motor (111) is mounted and whose support base (1121) is adapted for removable mounting in the upper profile (1). Device according to one of Claims 1 to 5, characterized in that the positioning member (13) consists of a calibration element (131) and a positioning counter (132), the calibration element (131) being mounted on the drive shaft (7) and the position counter (132) is mounted on the base plate of the control block (8). Device according to claim 6, characterized in that the calibration element (131) is formed by a disk mounted on the drive shaft (7) and provided with regularly arranged circumferentially spaced slots (133), and the positioning counter (132) is formed by two sensors mounted opposite on both sides of the calibration element (131). Device according to Claims 6 and 7, characterized in that the calibration element (131) is arranged on the drive shaft (7) by a locking ring (15).