This application claims the priority of ES P201330189 filed Feb. 13, 2013, which is incorporated by reference herein.
The object of the invention is an anti-overturn locking system, with electronic blocking module.
A preferential application of the system that is the object of the invention is in drawers for office furniture and similar furniture.
In the current state of the art, systems of selective extraction of drawers are already known in office furniture (also called anti-overturn systems or blocking systems) which consist of a strip fixed to the furniture on which plates or separators can slide which carry, for each drawer, a blocking device operated by a bolt associated with the corresponding drawer; so that with one drawer open, the opening of the remaining drawers is prevented.
The known systems are totally mechanical in concept/structure and present various problems, most importantly among which are:
The system that is the object of the invention solves all these problems. It is characterized in that, with the order of opening/closing of the blocking module by the user given, it consists of:
With the blocking module in closed position, the tab (which has its arm over the first positioning sensor) projects from the casing, pushing the punch until lodging it between the support and the mobile blocking device, preventing its movement, and therefore, the opening of the drawers. This position is reached when the user sends locking information to the blocking module.
With the blocking module in open position, the tab (which has its arm over the second positioning sensor) does not project from the casing liberating the punch, which retracts by the action of the punch spring, allowing the movement of the mobile blocking device, and therefore, the opening of one of the drawers. This position is reached when the user sends opening information to the blocking module.
It is indistinct, and it is included in the object of the invention that the user of the opening/closing order being identified by a RFID device (radio frequency identification), through a code reader, through a biometric reader or through a telephone. The blocking module receives the order through a serial, RF or Ethernet communication bus.
Other configurations and advantages of the invention can be deduced based on the following description, and on the related claims.
To better understand the object of the invention, a preferential form of embodiment is represented in the attached figures, subject to accessory changes that do not essentially alter it. In this case:
The following is a description of an example of practical, non-limiting embodiment of this invention. Other ways of embodiment in which accessory changes which do not essentially alter it are introduced are in no way disregarded.
The object of the invention is comprised of an anti-overturn locking system for furniture drawers, with a blocking module which is operated by the user through a method of identification and sends the opening/closing order to said blocking module.
According to the embodiment represented, the main components of the anti-overturn locking system are:
According to the embodiment represented, the main components of the blocking module are:
The electronic plate (12), in turn, includes:
The tab (2) can move in one direction by the action of the motor (3)/cam (4) unit and in the opposite direction by the action of the tab spring (11). In turn, in includes an arm (2a) which, in these movements, can be placed over the first positioning sensor (12a) or over the second positioning sensor (12b).
The arrangement of these main elements that form both the locking system and the blocking module is appreciated in
The details of positioning of the punch (5) in these respective positions to allow or to not allow the linear movement of the mobile blocking device (9) have been represented in
With this structuring and particularities, the operation takes place in the following manner:
When the blocking module is in open position (see
Once the user is identified, the order is given to lock the blocking module, causing the motor shaft to turn (3). The motor shaft (3) transfers the movement to the cam (4), causing it to turn. The tab (2) is continuously supported on the shaft (4a) of the cam (4) due to the force exerted by the tab spring (11). See
The cam (4) turns counter clockwise 180°, causing the tab (2) to slide longitudinally. The turning movement of the motor (3) is transformed into rectilinear movement. The tab (2) pushes the punch (5) of the anti-overturn lock, causing it to enter the hole between the mobile blocking device (9) and the support (6). The punch (5), occupying the hole, prevents the movement of the mobile blocking device (9), thus preventing the opening of the drawers. The tab reaches the final position because the arm of the tab (2a) is positioned over the first positioning sensor (12a).
When the blocking module is in closed position (see
Once the user is identified, the opening order is given to the blocking module, causing the shaft of the motor (3) to turn. The shaft of the motor (3) transfers the movement to the cam (4) causing it to turn. The tab (2) is continuously supported on the shaft (4a) of the cam (4) due to the force exerted by the tab spring tab (11).
The cam (4) turns counter clockwise 180° causing the tab (2) to slide longitudinally. The turning movement of the motor (3) is transformed into rectilinear movement. When the tab (2) goes back, the punch (5) goes back due to the action of the force of the punch spring (10) leaving free the hole of the anti-overturn lock between the support (6) and the mobile blocking device (9). The tab (2) reaches the final position because the arm of the tab (2a) is positioned over the second positioning sensor (12b).
In the event that the user opens a drawer, the mobile blocking device (9) is in its highest position; for this reason there is no hold between the mobile blocking device (9) and the support (6) for the punch (5) to enter. If the user at that moment gives the order to close with the transponder card, this causes the shaft of the motor (3) to turn; this shaft causes the cam (4) to turn and it, in turn, causes the tab (2) to turn to its lock position. The tab (2) pushes the punch (5), but it does not enter the hole because it stops against the mobile blocking device (9). In this case the punch (5) waits for the drawer to close in order for the mobile blocking device (9) to descend and to leave the hole free. Once the punch (5) has the hole free, it is automatically inserted due to the action of the force of the punch spring (10) and of the tab spring (11). In this way, the motor (3) does not undergo any type of stress.
Any form used by the user to give the opening/closing is indistinct, and is included in the object of the invention: for example, through a RFID (radio frequency identification) device, through a code reader, through a biometric reader or through communications.
Also indistinct and included in the object of the invention is any way used by the blocking module to receive the order: for example, through a serial communications bus or Ethernet or wireless communication.
The materials, dimensions, proportions and, in general, those other accessory or secondary details that do not essentially alter, change or modify the object proposed may vary.
The terms in which this report is written are a true reflection of the object described, and must be taken in theft broadest sense and never in a limiting manner.
Number | Date | Country | Kind |
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201330189 | Feb 2013 | ES | national |
Number | Name | Date | Kind |
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3157042 | Wolz | Nov 1964 | A |
8419083 | Burmesch | Apr 2013 | B2 |
20080246286 | Ostrowski | Oct 2008 | A1 |
Number | Date | Country | |
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20140225488 A1 | Aug 2014 | US |