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BR-202025007626-Y1 - Automated map module, module with inverted sliding drawer and automated retractable screen.

BR202025007626Y1BR 202025007626 Y1BR202025007626 Y1BR 202025007626Y1BR-202025007626-Y1

Abstract

AUTOMATED MAP MODULE, MODULE WITH INVERTED SLIDING DRAWER WITH AUTOMATED RETRACTABLE SCREEN AND AUTOMATED TECHNOLOGICAL TABLE. It is a utility model with application in the area of education and its technologies, aiming at the democratization of access to reading, research and interaction, which obtained a technical improvement in the first module (1) making the map cabinet automated and controlled by radio frequency remote control, the second module (2) has an inverted sliding drawer (2 F) with automated retractable screen (20 A), (20 B) and (21) and an automated technological table (22) with four functional spaces (24 A), (24 B), (24 C) and (24 D) for the use of notebooks with their respective buttons (25 A) and (25 C) for each functional space (24 A), (24 B), (24 C) and (24 D)

Inventors

  • RAIMUNDO KLEBER CASTRO SANTOS

Assignees

  • GIROTEC TECNOLOGIAS EDUCACIOANAIS EIRELI

Dates

Publication Date
20260310
Application Date
20250416

Claims (1)

  1. 1. “AUTOMATED MAP MODULE, MODULE WITH INVERTED SLIDING DRAWER WITH AUTOMATED RETRACTABLE SCREEN” made of Ultra MDF, Acrylic, Flat Iron Bar, Flat Iron Angle Bracket, Steel Casters and Rails, Nylon (for the Wheels), Cork, Nylon, ACM covering, 1mm to 2mm ABS edge banding, motorized and electronic equipment for automating the map cabinet and the inverted drawer, and other materials that are within the state of the art, is characterized by 2 modules (1 and 2), where the 1st module (1) measures 1.66 m high x 1.63 m wide x 30 cm deep and also in the 1st module (1) provides 5 shelves (1 E) with 7 spacers (1 F) each measuring 11.5 cm high x 1.5 cm wide and 22 cm deep, and the 2nd technological module (2) measures 1.66 m high x 1.63 m wide x 30 cm deep, and the technological table (22) measures 1.50 m in diameter x 80 cm high x 5 cm thick, and the assembly of the first module (1) consists of fitting the pieces (1 A), (1 B), (1 C), (1 D) and the five pieces (1 E) thus forming a cabinet and to complete the first installation of this cabinet, the shelves (1 F) are installed in each of the pieces (1 E) of this first module (1), and the lower part of piece (1 E) contains a chassis with wheels (3) to facilitate the movement of the first module, and after that, the corner brackets (5 A) with the hinges (5 B) are installed in the pieces (1 C) and (1 D) of this cabinet, and after the installation of this first part, piece (1 G) will be installed in the lower part of piece (1 B), wherein this piece (1G) will be a map cabinet (1G) that will have slides (4) to move its opening and closing of this space, and this space (1G) will contain 8 mounting supports (6A) with (6B), (7A) with (7B), (8A) with (8B) and (9A) with (9B), wherein the drive tubes with the tubular motors will meet in spaces (10), (11), (12) and (13), defining as follows, between spaces (6A) and (6B) will be located piece (13), between spaces (7A) and (7B) will be located piece (12), between spaces (8A) and (8B) will be located piece (11) and between spaces (9A) and (9B) will be located piece (10) wherein in these four tubes with the respective four tubular motors (10), (11), (12) and (13) which are Controlled by radio frequency remote control, retractable screens will be installed displaying municipal, state, national, and global maps. This allows for the use of these remote-controlled devices, where each map will receive a command to lower its retractable screen, displaying the selected map for study. After using the selected map, the selected map will be retracted by means of tubular motors. Other maps can be used for study, and after each map is used, they will be retracted by tubular motors activated by radio frequency control. Afterwards, the map collection (1F) will be stored in its designated space in cabinet (1). The assembly of the second module (2) consists of fitting together the pieces (2A), (2B), (2C), (2D), (2E), (2F), (2G), (2H), (2I), (2J), (2K), (2L), (2M), (2N), (2O), (2P), thus forming a dedicated module. For the technology, and in part (2 C) the chassis with casters (3) will be installed to maintain the movement of the cabinet and subsequently, between parts (2 L) and (2 H) two supports (14) and (15) will be installed where in the first support (14) will be installed two articulated supports for monitor, keyboard and mouse (16 A and 16 B), manufactured in 1/8 flat iron bar articulated on two stainless steel hinges, with a movable base for the keyboard measuring 45 cm long x 17 cm wide x 1/8 thick and a fixed base for the monitor 45 cm long x 20 cm high and 1/8 thick, supported on a flat iron bar 50 cm high x 5 cm wide and 1/8 thick where the computer supports (16 A) and (16 B) will be installed and for support (15) the other two articulated supports for monitor, keyboard and Mouse (17 A and 17 B), manufactured from 1/8" flat iron bar articulated on two stainless steel hinges, with a movable keyboard base measuring 45 cm long x 17 cm wide x 1/8" thick and a fixed monitor base 45 cm long x 20 cm high and 1/8" thick, supported on flat iron bars (17 A and 17 B) 50 cm high x 5 cm wide and 1/8" thick. The other two computer supports (17 A) and (17 B) will be installed on these supports. To use them, computer support (16 A) will need to rotate 90° and then the second computer support (16 B) will rotate 90° to position them for use. For greater safety when using these devices, the supports will be positioned on folding tables (19 A) and (19 B). Folding items are suspended by means of table supports (18 A) installed on part (2 B) and the second table support (18 B) installed on part (2 D), to provide support and safety for computer supports (16 A), (16 B), (17 A) and (17 B), and for the use of drawer (2 F) with slide (4), inside it will be installed parts (20 A) and (20 B) which are mounting supports to receive part (21), wherein this part (21) is a drive tube and inside it contains the tubular motor controlled by radio frequency remote control, wherein this drive tube with the tubular motor will be installed inside a support for the retractable screen, thus allowing the retractable screen to be automated and controlled by radio frequency remote control.

Description

[001] The present utility model refers to the identification and technical improvement of three of the six pieces of equipment that are being applied in the area of Education and its Technologies, aiming in this way at the automation of these three pieces of equipment, in order to improve the quality of teaching and have greater interaction with new technologies. [002] According to patent BR 202020000096-4, the compact foldable mobile library offers five reinforced chassis modules, each module having casters with L-shaped corner brackets and hinges, allowing adaptation to existing spaces in the school, such as classrooms, corridors and courtyards, occupying the most varied formats such as Squares, Diamonds, Straight Lines, Perpendicular Lines and Concave Formats (I, U, L, G, O, etc. formats) with versatility, agility, lightness and autonomy, however studying the aforementioned patent to find points of improvement to the state of the art, three specific problems were identified that needed improvement. [003] The first problem identified concerns the second technological module containing the map cabinet, which is a drawer with a slide to store the 4 types of maps: municipal, state, national and global, which can be better understood by means of figure 14 of BR 202020000096-4. The improvement that this utility model offers in technical terms in relation to patent BR 202020000096-4 would be the automation of the map cabinet, so that the drawer with a slide is used only to pull out and/or store the map cabinet in its designated space located in the second module, making it automated only for the use of the maps, without removing them from their location, which the current patent BR 202020000096-4 offers, removing the maps from the map cabinet and positioning them in some suitable location in the school environment for their use and subsequently storing them in order to avoid loss or damage to the material. [004] The technical solution found for the map library for this utility model would be the installation of a set of four tubular motors controlled by radio frequency on the projection screens adapted for the presentation of municipal, state, national and global maps. These tubular motors are configured to be controlled by remote control to lower or raise the retractable screens. To use the automated maps of the map library, the remote control must be pointed at the map library, allowing the user to select the desired channel by pressing the "+" or "-" button to change between the channels, which are configured as follows: 1 - Municipal Map, 2 - State Map, 3 - National Map, 4 - Global Map and 5 - Projector. When selecting one of the map library channels up to number 4, the user presses the button pointing "down" to lower the selected map. It is possible to press once to reach the desired height or press the "stop" button to stop at the desired height. To save this selected map, you will need to press the button pointing "up" to move the selected map upwards and save it. This will allow you to select other maps that are on channels 1 to 4 of the remote control, enabling better organization and efficient presentation of the maps to users. [005] The second technical problem identified in patent BR 202020000096-4 would be the manual use of the inverted drawer with slide of the fifth technological module. To avoid material wear and ensure quality in its use, a set of tubular motors controlled by radio frequency, installed in the retractable screen and controlled by remote control, was also designed to address this problem. Similar to the use of a map cabinet, the inverted drawer with slide would be moved forward, and the retractable screen would be activated via remote control for use with the data projector. To use the retractable screen of the data projector in the inverted drawer, the drawer needs to be moved forward, which is possible manually by pulling it out using the slides. The automation is only for the retractable screen, which requires the radio frequency control pointed at the inverted drawer, changing the channel to number 5, and pressing the button pointing "down" to activate the tubular motors, which then automatically lower the screen. This retractable screen is designed for use with a data projector. To store this retractable screen, the user needs to press the button pointing "up" so that the tubular motors are activated, causing the retractable screen to retract. After this, the inverted drawer must be moved backward to store the equipment. [006] The raw materials used for this utility model are Ultra MDF, Acrylic, Flat Iron Bar, Flat Iron Bar Angle, Steel Casters and Rails, Nylon (for the Wheels), Cork, Nylon, ACM covering, 1mm to 2mm ABS edge banding, motorized and electronic equipment for the automation of the map cabinet, the technological table and the inverted drawer, and other materials that are within the state of the art, so that Ultra MDF will be used in the manufacture of the modules,