TR2023016217A2 - A SERIES OF INNOVATIONS IN SMART CURTAIN SYSTEMS - Google Patents

Abstract

Meet; It has a flexible transfer (Coupling) system that can change position in the tilt (rotation) process, which allows opening-closing operations to be carried out automatically depending on user preferences in curtain systems used in vertical position, and contains a connection mechanism that can be connected to different curtain structures, to control the light entry into the area where it is used. as; It is related to a series of innovations in smart curtain systems, which include a frame (2) and a curtain mechanism (3) connected to the said frame (2), and an actuator (1) to move the curtain (P) by driving the said curtain mechanism (3).

Description

DESCRIPTION A SERIES OF INNOVATIONS IN SMART CURTAIN SYSTEMS Technological Field: This invention; It is about eliminating some problems existing in vertical curtain systems with control units. Known State of the Technology: Curtains are textile products that have been used for a long time to protect the privacy of residences and workplaces and to completely or partially block the light coming from the outside. There are many different types of curtain structures available today, with their intended uses, designs and functional features evolving. Apart from classic tulle and/or fabric curtains; There are curtains with many different names and functions such as backdrop, roller, zebra, bamboo, blinds. Vertical curtain systems are systems that are shaped by the movement of a shaft by the user via ropes, which extends along the curtain at the top and has connections and paths that allow the vertical positioning of the fabric pieces on it. In a day; Curtains are frequently repositioned due to factors such as changing sun angle and the user's wishes and needs. Nowadays, it is known that there are studies and even some applications on how to perform this positioning process automatically. In the document publication numbers CN214017040U, a system that can drive a curtain mechanism is mentioned. Here, the elements for remote control of the mentioned system are explained and it is specifically stated that it is controlled using a remote wireless connection with a mobile device. In another document with publication number CN213757703U, a system containing a solar panel is described to provide this movement, especially in curtains that are opened by sliding them to the side. Based on its general structure of being used wrapped around a cylinder, it has been explained that it contains an actuator that drives the curtain mechanism and that the control unit mentioned here is configured to control the actuator as well. The invention differs from previous techniques in terms of eliminating some problems that are experienced and/or are likely to be experienced in intelligent types of vertical curtain systems. Definition of the Invention: The invention, unlike previous techniques; a) It prevents possible accidents by ensuring that the actuator stops in case of difficulty, b) It provides comfort by increasing the traction distance of the remote control, c) It eliminates the heating of the actuator, which is a factor that prevents the frequency of use, d) It contains a control synchronous module that will allow the curtain to be installed in different directions according to user preferences. , e) Includes an emergency warning system with sound and light, f) Makes it possible to use it as an alarm clock, g) Gives an audible warning before opening when the clock is set, h) Allows the curtain to react with sound, movement and light during channel assignment, It is about a smart device that includes improvements such as i) The engine speed is adjustable, j) Power consumption in standby mode is eliminated. Explanation of Figures: Figure 1 is the front view of the smart curtain system. Figure 1.A is the top view of Figure 1 with the curtain open, and the curtain at the bottom is shown with dashed lines. Figure 1.8 is the top view of Figure 1 with the curtain closed, and the curtain at the bottom is shown with dashed lines. Figure 2 is the schematic view of the control unit of the smart curtain system. Figure 3 is the view of the internal structure of the actuator. Figure 4 is the side view of the actuator. The figures that will help understand this invention are numbered as indicated in the attached picture and are given below with their names. Explanation of references: 1. Actuator 101. Outer body 102. Tilt transfer shaft 103. Tilt transfer spring 104. lp bearing guide 105. Brushless tilt motor with reducer and encoder 106. Electronic circuit 107. Battery G. Tension mechanism Gl. Inner body GZ. Reel G3. Roller bearing G4. Tensioner installation button bearing GG. Oring G7. Engine mount G8. Tension end foot 69. Tension support foot 610. Tensioner bearing shaft 611. Tensioner bearing spring 612. Brushless motor with reducer and encoder 613. Tensioner installation button 2. Case 3. Curtain mechanism 4. Control unit 402. Secondary battery 403. Power supply 404 Processing Unit 405. Actuator control unit 406. Access point Description of the Invention: A casing (2) extending horizontally on the window and a vertical window connected to the shaft inside the curtain mechanism (3) within the said casing (2). Systems that work by adjusting the light permeability of the fabric pieces that extend to cover it by both tilting (rotating around their own axis) and by pulling all the fabric pieces in one direction or from the middle to both edges are known as vertical curtain systems in the market. While the tilt (rotation around its own axis) movement occurs by pulling a rope by the user, all the fabric pieces are pulled in one direction or from the middle to both edges, and the curtain is completely opened by pulling another rope by the user. As the tilt movement rotates the fabric pieces around their own axis, the angle of the fabric pieces relative to the sun changes and the amount of light entering is adjusted. In the other movement, all the fabric pieces are pulled away from the window and all the light is allowed in. Meet; It is a set of innovations that aim to eliminate the deficiencies in the operating principles of existing smart curtain systems. In smart curtain systems; It is a device surrounded by an outer body (101), and there is a tension mechanism (G) inside the outer body (101). Tension mechanism (G), inner body (Gl), spool (62), spool bearing (GS), tensioner installation button bearing (G4), spool-motor connection pin (GS), o-ring (GG), motor connection part (G7). ), tensioner end foot (G8), tensioner support foot (69), tensioner bearing shaft (610), tensioner bearing spring (611) and brushless motor with reducer and encoder (612). In order for the tilt movement to occur; There are tilt transfer shaft (102), tilt transfer spring (103), rope guide guide (104), tilt motor with reducer and encoder (105). There is an electronic circuit (106) and battery (107) to enable the device to operate on its own by remote voice or touch command or by programming. The device is connected to an existing vertical curtain system via the tilt transfer shaft (102). There is a tilt transfer spring (103) at both ends of the tilt transfer shaft (102). Tilt transfer spring (103) provides flexibility in positioning the tilt transfer shaft (102). Thus, it can adapt to the connection points positioned in different positions in different brands and models of vertical curtain systems, and with this structure, it has the feature of being mounted on vertical curtain systems that are currently on the market and are currently used in all kinds of places such as homes and workplaces. The device is connected to an existing vertical curtain system via the tilt transfer shaft (102). The rope that provides the opening-closing movement, which is normally used manually by the user, is passed through the rope bearing guide (104) and positioned on the pulley (G2). The lp bearing guide (104) ensures that the rope is centered and clings to the pulley (G2) without slipping left or right. The o-ring (G6) located on the spool (G2) enables the rope to hold on to the surface of the spool (G2). There is a tensioning mechanism (G) to enable the spindle to be positioned on the pulley (G2) in a practical way. The tension mechanism (G) enables the pulley (G2) to move on the pulley bearing (G3) located on the inner body (G1) and within a tension mechanism (G) taut with ropes; The spool-motor connection pin (G5) connects the spool (G2) and the reducer and encoder motor (G2) parts. The brushless motor with reducer and encoder (G12) is located inside the motor connection part (G7). These parts, as a whole, have the ability to move as much as the space of the roller bearing (G3) on the inner body (G1) allows. Movement occurs between the tension end foot (G8) and the tension stop foot (G9). During assembly, the tensioner installation button (613) is pressed and the tensioner installation button (613) is removed from the tensioner installation button bearing (G4). When the pulley (GZ) is pulled downwards in the direction of the tensioner bearing shaft (610), tension is created by the force of the tensioner bearing spring (Gll) in the opposite direction. When the rope is released after being positioned on the pulley (GZ), the rope is positioned in tension on the pulley (GZ) with the reverse force of the tension bearing spring (Gll). The o-ring (GG) located on the inner surface of the pulley (62) prevents the rope from slipping. The assembly is completed by connecting the tilt transfer shaft (102) to the existing vertical curtain system and positioning the rope using the tension mechanism (G) as mentioned. The way the device subject to the invention works may vary depending on user preferences. User; a) You can program the curtain movement to ensure that certain movements are made at certain times of the day, within a certain program, b) You may want the curtain movement to move according to the position of the sun, c) You may want to remotely control the curtain movement with touch commands on a mobile device, d) You may want to control the curtain movement remotely with touch commands on a mobile device. They may want to control their movement remotely with voice commands using the microphone of a mobile device, e) They may want to control their curtain movement with voice commands near the device. All these preferences are realized by exchanging data and commands between the electronic circuit (106) and the control unit (4). On the electronic circuit (106); There is at least one microphone, a sensor that measures the light level, electronic elements that measure and control the movements of the motors, a timer, and parts where the preferred programs are recorded. When the tilt motor (105) with reducer and encoder is triggered, it operates for a certain period of time according to the command coming from the electronic circuit (106) and/or the control unit (4). With this operation, the movement is transmitted to the tilt transfer spring (103) and the tilt transfer shaft (102). The tilt transfer shaft (102) transmits the movement to the shaft located in the curtain mechanism and the vertically positioned fabric pieces perform tilt movement. When the brushless motor (612) with reducer and encoder is triggered, it runs for a certain period of time according to the command coming from the electronic circuit (106). With this operation, the movement causes the pulley (GZ) to rotate. The rotating movement of the pulley (GZ) moves the threads wrapped around it, and the vertically positioned fabric pieces move in a single direction, or from the middle to both edges, or vice versa, by the desired amount, opening the curtain. It allows it to close, partially open or partially close. The power needs of the tilt motor (105) with gearbox and encoder and the brushless motor (612) with gearbox and encoder are met by the battery (107). The battery (107) can be recharged with mains electricity or can be fed from a solar panel. Smart curtain systems within the scope of the state of the art; a) It can be done with one gearmotor and an encoder motor without requiring user contact, b) It can be done with a remote touch or voice command via a mobile connection, c) It can be done by programming it according to user preferences without the need for any commands, d) It can be done by programming the sun without any commands or programming. It enables automatic tracking of angle changes during the day. As a result of the smart curtain (P) getting stuck on a person, pet or an object while moving in accordance with any command or program, the motor (105) may be strained, a motor (105) may be damaged, an accident may be caused and therefore a living being or an object may be injured. It is a dangerous situation with the potential for harm. In the innovation carried out within the scope of the invention, the engine (105) is automatically stopped and the movement is terminated in case of difficulty. For each curtain, there is a current level (operating value) determined according to the size of the curtain. For example, a current level determined as 200 ma for a small-sized curtain may be determined as 600 ma for a large curtain (P) so that the curtain (P) can move easily. These determined and assigned current levels (operating values) to each curtain are controlled by the control unit (4). If the curtain (P) experiences a jamming event during operation, the motor (105) will be strained, an anomaly will occur in the current level and the current value will increase. In this case, the actuator (1) communicates with the control unit (4) and cuts off the energy and stops the movement. Within the scope of the known state of the art, the traction distance of the remote control is limited. This creates a need to get closer to the system in order to use the remote control and limits comfort. In the innovation made within the scope of the invention, the traction distance of the remote control has been extended. In order for this to happen, an access point (406) is integrated into the control unit. By using brushless motors (105) instead of the motor (105) used within the scope of the known state of the technology, the heating problem of the motors has been eliminated. Thus, since the engine does not heat up during serial use, any disruption in use is prevented. The user can install the curtain upside down for any reason (by mistake or by his/her own choice). In this case, with the innovation made within the scope of the invention, the buttons on the remote control can be reprogrammed and the function of the buttons can be adjusted according to the new position. Another innovation made within the scope of the invention is the emergency warning system. The control unit (4) is connected to a network. The network to which the smart curtain system is connected via the control unit (4) warns with sound and light when it encounters any emergency warning, and if it is in the open position, it closes. Emergency alerts; In cases such as earthquakes, floods, attacks, etc., it can be done by the state, local governments or local or global service providers that offer this service. The emergency warning issued by this institution or service providers is detected by the control unit (4), and with the command generated by the control unit, the curtains (P) warn with sound and light. If it is in the open position, it switches to the closed position against the risk of glass breakage. Thus, even if the glass breaks due to an emergency, it prevents possible injuries as it will not scatter around. Another innovation made within the scope of the invention is that the smart curtain system functions as an alarm clock. The remote control can be set to sound an alarm at a certain time periodically or just once. When the set time comes, the curtains give a warning with sound and light, indicating that the time has come. Another innovation made within the scope of the invention is that if the system is set to open the curtains (P) at a certain time, it gives an audible warning just before the opening starts when the set time arrives. Thus, in case the curtains (P) are opened without notice, situations that may cause difficulties regarding privacy are prevented. Another innovation made within the scope of the invention is making the movement speeds of the curtains (P) adjustable. If the curtains (P) are desired to move faster or slower than normal, this setting can be made with the control panel. Another innovation made within the scope of the invention is that during the assignment process regarding which channel of the remote control will control which curtain (P), the curtain assigned to the channel reacts with sound, light and movement. When a curtain (P) is assigned to a channel of the remote control, it reacts with sound and light, while simultaneously completing its reaction with a small left-right movement. Thus, in the known state of the technique, if the technique reacts only with sound, it is not possible to understand which pitch (P) the sound is coming from and the adjustment processes that cause confusion have been made healthier. Another innovation made within the scope of the invention is to prevent the system from consuming power in standby mode. Unless there is a command from the remote control, the system is in standby mode and does not consume power. As soon as the remote control is touched, the system is powered, thus saving energy.TR