Abstract
The invention relates to a mechanical lock (37) for a plurality of keys (26) that can be authorized with a different code (39), with discriminated opening using a selection device (1) that can be activated manually from outside, a signaling element for displaying the selected code (2) (3), a manual closure (4) and locking (19) (15) mechanism, integrated with a modular set of lockers (FIG. 15) for delivery home and collection of parcels. The invention allows the use of a limited number of modular lockers for a larger set of users without requiring computer applications, electricity or an internet connection during the delivery, which is especially for common areas of communities of residents, building lobbies, housing estates, shared spaces or offices.
Claims
1. A changeable lock for a parcel delivery and reception mechanical system, including a housing (27), a lid (7), a deadbolt (22) that includes a set of plates (17), a set of interlocks (18) located in front of the set of plates swinging around a stem (33), which by means of an authorized key (26) are ordered and coupled, characterized in that the lock is capable of being operated in a discriminated manner by a plurality of keys with different mechanical codes (39); a selection device (1) (6) (8.1) (8.2) (8.3) (8.4) (8.5) (8.6), to discriminate the authorized code, goes through the deadbolt (22) modifying the position of the plates (17) while waiting for the matching and coupling in the slits of the plates (17) of each of the interlocks (18) that lift the teeth of the authorized key (26); a rod (4) to manually move the deadbolt (22) from the outside of the lock to its closure; a mechanism to restrict the turning direction (15) of the selection device (1) (6) (8.1) (8.2) (8.3) (8.4) (8.5) (8.6); a mechanism to restrict the other turning direction (19) on the drive shaft (6) to lock the selection device which is operated at the time when the deadbolt path (22) is in the closed position; and a signaling mechanism (5) (2) (3) that depends on the point of the deadbolt displacement path (22), assembled in the selection device and in the lid (7) to make visible from the outside which mechanical code is authorized to open the lock.
2. The changeable lock for a parcel delivery and reception mechanical system, according to claim 1 characterized in that the plates (17) have a rectangular rounded-ends cogged hole (9) with a rack (10) driven by combination gears (8.1) (8.1) 8.2) (8.3) (8.4) (8.5) (8.6) including cogged arches (11) of different grades that are coupled to the rectangular rounded-ends hole (9).
3. The changeable lock for a parcel delivery and reception mechanical system, according to claim 2 characterized in that the authorized code selection device has a knob (1) actionable from outside of the lock and connected to an axle (6) that goes through the lid (7), a user wheel (5), the plates (17), the combination gears (8.1) (8.2) (8.3) (8.4) (8.5) (8.6), the deadbolt (22) and a fastening washer (16) which, as the degrees of rotation varies, produces a movement in the position of the plates (17) by which they move up and down within the plate housing (29).
4. The changeable lock for a parcel delivery and reception mechanical system, according to claim 3 characterized in that the axis (6) that moves the plates (17) has a movement restriction mechanism which comprises a ratchet (14) assembled to the axis (6) and a pawl (12) that forces the turn to rotate in one direction.
5. The changeable lock for a parcel delivery and reception mechanical system, according to claim 3 characterized in that the transmission shaft (6), that goes through the deadbolt (22) and the lid (7) and moves the knob (1), assembles a ratchet (15) driven by contact with a pawl (19) assembled in the housing (27) when the deadbolt (22) reaches the closing position, and whose function is to prevent the sole sense of rotation of the transmission shaft (6) and disable the knob (1) of the selection device completely.
6. The changeable lock for a parcel delivery and reception mechanical system, according to claim 1 characterized in that the lid (7) includes a slit (13) and the deadbolt (22) has a rod (4) that goes through it to move the deadbolt (22) from the outside in the closing direction.
7. The changeable lock for a parcel delivery and reception mechanical system, according to claim 1 characterized in that a set of lockers that shares users to collect the parcels (38) are integrated into modules (36) by an key (26) to open the lock and including a mechanical code (39) capable of being authorized.
Description
BRIEF DESCRIPTION OF DRAWINGS
(1) To understand the nature of the invention, a preferred industrial realization of the present invention is illustrated in the attached drawings, by way of a not limiting and merely illustrative example, to which we refer in our description:
(2) FIG. 1 is an exploded perspective view of the lock pieces in accordance to the preferred embodiment of the invention;
(3) FIG. 2 is a front view of the lock in the closed (left) and open position (right);
(4) FIG. 3 shows a perspective view of the back of the lid and the selection device, omitting some parts of the lock for clarity purposes;
(5) FIG. 4 shows an elevational view of the combination gears without being assembled in the selection device, in order to give greater clarity to the explanation of possible permutations;
(6) FIG. 5 is a perspective detailed view of the assembly of a possible combination of the combination gears;
(7) FIG. 6 shows a perspective detailed view of the assembly between the plates and the combination gears inserted into the combination shaft, in order to represent the linear movement of the plates, up and down, as the shaft of the combination cylinder rotates, omitting part of the lock for clarity purposes;
(8) FIG. 7 represents a perspective view of the deadbolt with the turning direction restriction device and circular step by step movement, by contacting the ratchet and the pawl, omitting part of the lock for clarity;
(9) FIG. 8 shows a dimetric perspective view of the housing and the selection mechanism locking device in a closed position (left) and open position (right), omitting part of the lock for clarity purposes;
(10) FIG. 9 is a perspective view of the back of the deadbolt and the device to lock the selection mechanism locking device in a closed position (left) and open position (right), omitting part of the lock for clarity purposes;
(11) FIG. 10 is a perspective view of the mechanism that allows the lock to be opened with an authorized code key, omitting part of the lock for clarity purposes;
(12) FIG. 11 is a perspective view of the mechanism that allows the lock to be manually closed and locked, omitting part of the lock for clarity purposes;
(13) FIG. 12 is a perspective view of the lock mechanism in a closed position before inserting the key, omitting the lid and the selection devise for clarity purposes;
(14) FIG. 13 is a perspective view of the lock mechanism in an open position after inserting the key, omitting the lid and the selection devise for clarity purposes;
(15) FIG. 14 is a perspective view showing in detail how the key, the interlocks and the plates are coupled, representing the moment in which the lock is opened, and omitting part of lock pieces for clarity purposes;
(16) FIG. 15 is a perspective view of the locker modular system with an opened module door and a parcel inside;
(17) FIG. 16 shows an example of the different mechanical codes for the keys of each of the users who share the lock.
DETAILED DESCRIPTION OF THE INVENTION
(18) Making reference to the attached figures, and according to the numbering system adopted, an example of a preferred embodiment of the present invention can be noted, comprising the parts and elements indicated and described below.
(19) Thus, as seen in FIGS. 1 to 16 a possible preferential embodiment of the invention comprises the following elements.
(20) The selection device for opening discrimination goes through the deadbolt (22) by means of a drive shaft (6) that is driven by a knob (1) modifying the position of the plates (17) by means of the combination gears (8), waiting for the manual closing of the lock by the rod (4), as well as its subsequent opening by a key (26) that is inserted into the keyhole (23) of the lid. The key rotates coupling the necessary elements to release the deadbolt (22), as shown in FIG. 1 and explained in detail below.
(21) The destination indication window (3), as shown in FIG. 2 (left), warns which user has been chosen by the messenger. The selection indication window (2), in FIG. 2 (right), indicates which of the potential users is being selected by clockwise turning the selection knob (1). When the messenger finds the user to which the parcel is intended, he/she moves the closing rod (4) to its end, locking the lock and appearing in the destination indication window (3). In turn, the word “BOX” appears on the right side of the slit (13) of the closing rod (4). On the left side of FIG. 2 the front of the lock in a closed position is shown, and on the right side of FIG. 2 the front of the lock in its open position is shown.
(22) The drive shaft (6) goes through the cover (7) and the users wheel (5), as shown in FIG. 3, including longitudinal and transverse cuts, to assemble the combination gears (8.1) (8.2) (8.3) (8.4) (8.5) (8.6) and the continuous circular motion restriction elements, the ratchet (14), the closing ratchet (15) and the safety washer (16). The first circular motion restriction element, called for these purposes ratchet (14), has two functions: the first one is to restrict one of the turning direction to force the clockwise rotation (it is thus a ratchet-shaped piece with oblique teeth); and the second function is to transform the continuous circular movement of the selection knob (1) into a discrete circular motion, a movement in steps, one for each of the users who share the lock and the lockers, having as many teeth as users.
(23) The combination gears (8.1) (8.2) (8.3) (8.4) (8.5) (8.6) have toothed arcs (11) of varying degrees that are attached to the drive shaft (6), as shown in FIG. 4. Each gear has an engraved consecutive natural number. These gears have the aim to configure, through their permutation with respect to the relative placement on the drive shaft (6), the general combination of the lock. A position of the combination gears (8.1) (8.2) (8.3) (8.4) (8.5) (8.6) configures a set of different mechanical codes for each rotation degree. The location of these same parts in another relative position determines other mechanical codes for the same rotation degrees. The consecutive natural numbers engraved on each of the combination gears, as shown in FIG. 5, helps in the assembling of the parts during the industrial manufacturing process.
(24) Each plate (17) has a rectangular rounded-end hole (9) with inner and rack teeth (10) coupled with the toothed arches (11) of the combination gears (8.1) (8.2) (8.3) (8.4) (8.5) (8.6), as shown in detail in FIG. 6. The circular turning motion of the drive shaft (6) is transformed into a linear up and down motion of the plates (17). Each turning degree of the drive shaft (6) that allows the step-by-step movement of the selection knob (1) determines a variation, also in steps, of the respective heights of the plates (17). These respective heights of the plates (17) as a result of the different turning degrees configure each of the specific combinations of each key that the set of users that shares the lock have, and the relative position of the positioning gears (8.1) (8.2) (8.3) (8.4) (8.5) (8.6) on the drive shaft (6) configures the general combination of that lock. The drive shaft (6) passes through the deadbolt (22) and joins the selection knob (1). The end portion of said drive shaft (6) has a slit to insert a safety washer (16), and the initial portion of said drive shaft (6) is attached to the selection knob (1). The selection knob (1), like the rod (4), has the possibility to move the deadbolt laterally (22).
(25) The piece that includes the deadbolt (22) has a guiding stem (20) housed therein, as shown in FIG. 1, to attach the turning direction restriction pawl (12) (also called the dextrorotation pawl) which prevents the counterclockwise rotation, as shown in FIG. 7. This pawl has a hole that matches the guiding stem (20), to which a spring has been added (21) whose function is to force contact with the ratchet (14). The guiding stem (20) includes a thread to facilitate the installation of the turning direction restriction pawl (12). The drive shaft (6) shall therefore have a counter-clockwise rotation restriction according to the ratchet (14).
(26) There is another guiding stem (24) in the lock housing (27) to place the closing pawl (19) (also called the levorotatory pawl), whose functionality is to lock the movement of the drive shaft (6) at the end of the deadbolt path (22), restricting the only allowed turning direction through the contact with the closing ratchet (15). Said closing ratchet is symmetrically assembled to the ratchet (14) and whose teeth are tilted in the other direction. A spring (25) is also installed on the guiding stem (24) of the housing (27) which forces contact with the closing ratchet (15). FIG. 8 shows the details of this mechanism in the closed and open position, and FIG. 9 shows the reverse of the housing (27) (transparent) and the deadbolt (22) with the turning restriction device, in the closed and open position. The drive shaft (6), the closing ratchet (15), and the closing washer (16) move together according to the deadbolt (22); and the guiding stem (24), the closing pawl (19) and the spring (25) are fixed to the housing (27) waiting for contact when the deadbolt (22) moves. When the lock is closed (left part of FIGS. 8 and 9), the device is activated to restrict the only-allowed turning movement of the drive shaft (6), (clockwise direction), by forcing the contact of the closing pawl (19) with the closing ratchet (15). Blocking occurs when both the clockwise and counterclockwise turning of the drive axis (6) have been restricted. When the lock is open (right side in FIGS. 8 and 9), one of the two turning directions is released, allowing the clockwise rotation of the drive shaft (6).
(27) The code control piece (28), which operation is described in FIG. 10, rotates upwardly around stem (33) when the key (26) is inserted into the lock and is rotated 45°. The nose (28.a) is inserted into the opening of the deadbolt in the housing (29) of the plates (17) waiting for the key to have the appropriate mechanical code and to be able to rotate the other 45° that is need to move the sliding part (31) of the deadbolt (22). Once opened and when the key (26) has been removed from the shank (32), as schematically shown in FIG. 11, the lock can be manually moved towards its closure by the closing rod (4). This is allowed by the nose shape (28 a) of the code control piece (28) without any obstruction additions that retain it in the deadbolt and that is necessary to release it with a key at the time of closing the lock. When the closing stem is moved (4) and closed, the spring (35) forces the control piece of the code (28) to rotate downwards around the stem (33).
(28) The code control part (28) has a column (34) that serves as a motion guide and placement in the waiting position of the interlock set (18), as depicted in FIG. 12. The key (26) has an inner cylindrical hole to be inserted into the stem (32) at the time of opening. If the key (26) has the appropriate mechanical code (39), the key teeth will lift each of the interlocks (18) to a certain position when the key is rotated 90° and will fit into the slits of the plates (17) which are waiting at the same combined height in the user selection, as shown in FIG. 14. When turning the key (26) to 135°, the deadbolt (22) will move towards the opening by the action of the sliding part (31) and, as is apparent from the observation in FIG. 13, when the key (26) reaches the 180° the deadbolt (22) will be fully open, each of the interlocks (18) will be inside the slits of the plates (17), the nose (28(a) of the code control piece (28) will fit into the deadbolt slit (22) and the key (26) can exit the stem (32).
(29) In this position, when the lock is open, the closing rod (4) allows the manual movement of the deadbolt (22) towards the closing position. And in that movement, since the spring (35) forces the code control piece (28) to move downwards around the stem (33) it forces, in turn, to drop the interlock set (18) as a result of the same rotation and the column (34) inserted into the code control piece (28).
(30) Through the hollow columns (30) and the lid (7) the lock is finally assembled, as shown in FIG. 1.
(31) This lock (37), as shown in FIG. 15, is included in a modular variable dimension locker system, in which each compartment module (36) has the same lock. A key with different mechanical code (39) is assigned to each user, as shown in FIG. 16, sharing the modular system. The messenger places the parcel (38) in one of the lockers whose dimension is most appropriate to the volume of the parcel, selects the user to which the parcel is addressed with the selection knob (1) and with this element the different plates (17) are moved to a certain combined heights, the deadbolt (22) is manually moved with the rod (4) in the closing direction and locks the rotation of the selection knob (1) in both the clockwise and counterclockwise, as explained above. The selected user enters his key (26) with his mechanical code (39) and through each of his teeth, raises to the height coincident with the plates (17) each of the interlocks (18), as shown in FIG. 14, and opens the lock, opens the module (36) and collects the parcel (38).
INDICATION OF A WAY IN WHICH THE INVENTION IS SUSCEPTIBLE TO INDUSTRIAL APPLICATION
(32) This invention is capable of industrial application and it can be manufactured by the corresponding industry in an obvious way, as described in FIG. 1 and the detailed description of a preferred embodiment.
