EP3228788B1

EP3228788B1 - Modular lock

Info

Publication number: EP3228788B1
Application number: EP16164443.0A
Authority: EP
Inventors: Johan Calleberg
Original assignee: Axelent AB
Current assignee: Axelent AB
Priority date: 2016-04-08
Filing date: 2016-04-08
Publication date: 2019-01-02
Anticipated expiration: 2036-04-08
Also published as: EP3228788A1; WO2017174732A1; ES2718196T3

Description

Field of the invention

The present invention relates to a modular lock for use in a machine guard system, comprising a lock body adapted to be fastened to a doorframe, a door, or a gate. The invention also relates to a locking system comprising such a modular lock.

Background of the invention

An example of a modular lock is known from document DE 10 2006 007 690 A1 .
With automated machinery such as industrial robots, automated milling machines, CNC lathes, and autoclaves, there is often a danger associated with users being near the machines during operation. For example, hair or loose clothing could get caught in rotating components, the machine could collide with a user when it moves from one position to another, or a user could get caught between the machine and its workpiece, all with potentially catastrophic consequences.
In order to prevent this from happening, many manufacturers are required to use machine guard systems to protect the users from the machine, and the machine from the users. In order to prevent unauthorized personnel from entering a potentially dangerous work area, machine guard systems are often locked with some kind of lock.
As most machine parks look slightly different, there is a need for a plurality of different machine guard locks. Some manufacturers require locks for sliding doors, some require locks for swing doors. Others require locks that are opened from a control room only, while others require locks that can be opened with the push of a button. For some situations, the lock needs to be mounted on the door, while in other situations the lock needs to be mounted on the doorframe. This creates a need for a plurality of different locks that each fit into a specific situation.
From the perspective of a supplier of locks, this puts demands on the number of products that the customers expect the suppliers to have in store. As managing a large number of different products and keeping them in stock is expensive, this creates an economic issue for the lock suppliers.

Summary of invention

An object of the present invention is therefore to alleviate the abovementioned problems and provide a modular lock for use in a machine guard system.
A further object of the invention is to provide a modular lock which can be mounted in a number of different configurations, thus allowing the same modular lock to be used for several different kinds of situations.
The above and other objects which will be evident from the following description are achieved by a modular lock for use in a machine guard system as defined in the accompanying claims.
According to a first aspect of the invention, a modular lock, for use in a machine guard system, is provided. The modular lock comprises a lock body adapted to be fastened to a doorframe, a door, or a gate. The lock body comprises a lock insert receiving portion. The modular lock further comprises a lock insert adapted to be received by the lock insert receiving portion. The lock insert is adapted for receiving a locking member. The lock insert is mountable in at least two distinct positions relative to the lock insert receiving portion such that the modular lock is usable for locking both sliding doors and swing doors. The lock body is symmetrical over a plane extending perpendicular to a central longitudinal axis of the lock insert and which intersects the center of the modular lock and the center of the lock insert receiving portion.
The term modular refers to the modular lock being arrangeable in a plurality of different configurations using the same set of components so that it can be used in different situations. For example, the modular lock can be arranged to be used with either a slide door, a right hinged swing door, a left hinged swing door, a curtain walling system e.g. a sectional garage door that slides downwards when closing, or a fence gate, all using the same set of components. Having a lock that is modular allows the producer to stock fewer lock models, as a modular lock can be used for a number of customer needs. Thus, inventory keeping is streamlined and the production of the locks requires fewer processes, as fewer components are needed. Also, the risk of a customer buying the wrong type of lock is greatly reduces as the same kind of lock can be used for a plurality of customer needs.
While the modular lock is suitable for use with a machine guard system, it should be noted that it could also be used for a storage system. It is also conceivable that the modular lock is suitable for other types of situations requiring locks. A machine guard system is herein defined as a system used for protecting personnel from the dangers of automated equipment, while also protecting the equipment itself. A machine guard system can also be used for non-automated equipment that is dangerous for non-authorized personnel to operate.
The lock insert is adapted to be received by the lock insert receiving portion and the lock insert is adapted to receive a locking member. Receive is herein defined as one part being connected to another in such a way that the intended effect of this connection is achieved.
It should be noted that the at least two different positions that the lock insert is mountable in are distinct, meaning that one position is clearly and readily distinguishable from the other with the naked eye. The benefit of this is that one and the same modular lock can be used in at least two distinctly different situations, such as one where a sliding door is to be locked and one where a swing door is to be locked.
The doorframe that the lock body is adapted to be fastened to comprises at least doorpost and lintel, meaning that the lock body is adapted to be fastened so that a longitudinal axis of the modular lock is either in a horizontal orientation or in a vertical position. For example, the modular lock can be fastened to the doorpost in a horizontal position or to the lintel in a vertical position. Other similar arrangements are of course conceivable.
The distinct positions in which the lock insert is mountable are to be understood as being distinct either through their rotational separation, e.g. that the lock insert is rotated 90° between the first and second position, or through their axial positioning, i.e. that the lock insert is mountable in a second position that is not completely intersecting a first position.
According to at least one exemplary embodiment, in a first position of the at least two distinct positions, the lock insert is, relative to a second position of the at least two distinct positions, rotated in relation to the lock insert receiving portion.
For example, the modular lock can be arranged to be used with a sliding door by rotating the lock insert so that the locking member can be received from a first direction, and the modular lock can in another situation be arranged to be used with a swing door by rotating the lock insert so that the locking member can be received from a second direction that is perpendicular to the first direction. It should be understood that the first and second direction do not need to be perpendicular to each other, but could also be arranged relative to each other at other angles, e.g. 20°-90°, such as 45°. Also larger and smaller separations are conceivable. The transition between the first and second direction can either be such that the lock insert is rotated continuously, or step-wise e.g. 5° at a time.
According to at least one exemplary embodiment, the first position of the at least two distinct positions is separated from the second position of the at least two distinct positions by at least 20°.
The first position of the at least two distinct positions is arranged at an angle to the second position of the at least two distinct positions, such that they are separated by at least 20°. For example, the first and second position could be separated by 20°-90°, such as 45°. Also larger and smaller separations are conceivable.
According to at least one exemplary embodiment, the lock insert comprises a locking member receiving recess.
The locking member receiving recess can for example be provided as a V-shaped recession, a recession shaped as a square cuboid or a spherical recession.
According to at least one exemplary embodiment, the lock insert comprises a locking pin arranged along a central longitudinal axis of the lock insert, the locking pin having a blocked mode and an unblocked mode. The locking pin is arranged to prevent the locking member from being received by and removed from the locking member receiving recess when the locking pin is in the blocked mode, and the locking pin is arranged to allow the locking member to be received by and moved from the locking member receiving recess when the locking pin is in the unblocked mode.
The locking pin being arranged along a central longitudinal axis of the lock insert is to be understood as meaning that a central axis of the locking pin substantially intersects the central longitudinal axis of the lock insert. By having the locking pin arranged in such a way, any rotation of the lock insert around its longitudinal axis does not impair the function of the locking pin.
According to at least on exemplary embodiment, the lock insert comprises a cylinder. In at least one of the at least one exemplary embodiment, the locking pin being arranged to prevent the locking member from being received by and removed from the locking member receiving recess when the locking pin is in the blocked mode is to be understood as meaning that, when the locking pin is in its blocked mode, it forces the cylinder to interfere with the locking member so that the locking member cannot be removed from or received by the locking member receiving recess without moving the cylinder. As the cylinder is held in place by the locking pin and is thus prevented from moving, the locking member is consequently prevented from being received by and removed from the locking member receiving recess. When the locking pin is in its unblocked mode, the cylinder is allowed to move and the locking member can therefore be received by and removed from the locking member receiving recess.
According to at least one exemplary embodiment, the modular lock comprises a locking element, wherein the blocked mode is caused by the locking element being arranged so that it prevents the locking pin from entering the unblocked mode.
The locking element may be mountable on the lock body, either directly or indirectly. The locking element is arranged to be able to prevent the locking pin from allowing the locking member to be moved to and from the locking member receiving recess by making sure that the locking pin cannot enter its unblocked mode, i.e., the locking element is arranged to be able to put the locking pin in its blocked mode. The locking element may be connected to one or more locking and unlocking mechanisms, e.g. keypads, keycard readers, buttons, or pin locks. By being connected to any of these locking and unlocking mechanisms, the locking element can take the locking pin from its blocked mode to its unblocked mode in various ways. Depending on the situation, an arrangement is conceivable where the locking pin is moved from its blocked mode to its unblocked mode as a result of a user using a key, entering a password, pushing a button and/or using a keycard. It is also conceivable that the locking pin can be moved from a blocked mode to an unblocked mode from the inside of a machine guard system by means of a so-called "panic button".
According to at least one exemplary embodiment, the locking element has at least a non-restricting state and a restricting state. In the non-restricting state, the locking element is arranged so that the locking pin can move between the blocked mode and the unblocked mode, and in the restricting state, the locking element has been displaced relative to the non-restricting state so that the locking element is restricting the freedom of movement of the locking pin.
The displacement of the locking element could for example be one of or a combination of at least the following: linear movement, rotational movement and pivoting translation.
According to at least one exemplary embodiment, in the restricting state, the locking element has been axially displaced relative to the non-restricting state so that the locking element is restricting the freedom of movement of the locking pin.
According to at least one exemplary embodiment, the locking element comprises a locking bar comprising a recess. In the non-restricting state, the locking bar is rotated around its central axis relative to the restricting state so that the recess is arranged so that the locking pin can move between the blocked mode and the unblocked mode.
The recess may for example be provided as a through hole through the locking bar, arranged so that the locking pin can enter the recess when the locking bar is rotated from its restricting state. The recess may also be provided by removing a portion of the locking rod so that it is arranged as e.g. a half-cylinder, so that when the locking rod is in its restricting state, the locking pin is prevented from moving between the blocked mode and the unblocked mode by the locking rod, and when the locking rod is rotated to its non-restricting state, the portion that has been removed from the locking rod allows the locking pin to move between the blocked mode and the unblocked mode.
According to at least one exemplary embodiment, the locking element comprises a locking bar comprising a recess. The locking element has at least a second non-restricting state. In the second non-restricting state, the locking bar is rotated around its central axis relative to the restricting state so that the recess is arranged so that the locking pin can move between the blocked mode and the unblocked mode.
According to the invention, the lock body is symmetrical over at least one plane intersecting its geometrical center. I.e., the modular lock is symmetrical over a plane which is perpendicular to a central longitudinal axis of the lock insert and which intersects the center of the modular lock and the center of the lock insert receiving portion. In one exemplary embodiment, this corresponds to the upper half and the lower half of the lock body being symmetrical mirror images.
According to at least one exemplary embodiment, the modular lock is mountable on doors or gates that are either left hinged or right hinged.
Mountable is herein defined as meaning that the modular lock can be mounted in a way so that it is readily usable by a user, i.e. the handle should not be upside down, locking should always be done in the same direction relative to the door post, and any keypad, pin locks or keycard readers should not be upside down. It should be understood that the modular lock is mountable on other kinds of doors and gates than those that are either left hinged or right hinged, e.g. sliding doors.
According to at least one exemplary embodiment, the modular lock comprises a backplate. The modular lock is mountable to the doorframe, door or gate by means of fastening the backplate to the lock body so that the doorframe, door or gate is held in place between the backplate and the lock body by means of friction.
According to at least one exemplary embodiment, the locking element comprises an actuator, wherein the actuator is arranged to at least move the locking element back and forth from the second non-restricting state to the restricting state.
The actuator can for example be an electrical actuator, or a pneumatic actuator, or a combination of pneumatic and electrical actuators.
According to at least one exemplary embodiment, the locking member is a locking tongue.
However, other kinds of locking members, such as latches or hoops, are of course conceivable.
According to a second aspect of the invention, a locking system is provided. The locking system comprises a modular lock according to any embodiment of the first aspect of the invention, and a locking member adapted to be fastened to a doorframe, a door, or a gate. The modular lock is adapted to receive the locking member.

Brief description of the drawings

The above, as well as additional objects, features and advantages of the present invention, will be better understood through the following illustrative and non-limiting detailed description of exemplary embodiments of the present invention, with reference to the appended drawings, wherein:

Fig. 1a is a perspective view of a modular lock according to at least one exemplary embodiment of the present invention, in which the lock insert is shown before being mounted;
Fig. 1b is a perspective view of the modular lock in Fig. 1a, in which the lock insert is shown after being mounted in a first position for use with swing doors;
Fig. 2a is a perspective view of the modular lock in Fig. 1a, in which the lock insert is shown before being mounted;
Fig. 2b is a perspective view of the modular lock in Fig. 1a, in which the lock insert is shown after being mounted in a second position for use with sliding doors;
Fig. 3a is a perspective view of a lock insert being part of a modular lock according to at least one exemplary embodiment of the present invention;
Fig. 3b is an exploded view of the lock insert in Fig. 3a;
Figs. 4a-c show a cross-section of a lock insert being part of a modular lock according to at least one exemplary embodiment of the present invention, and a locking member. In Fig. 4a, the locking member is not received by the locking member receiving recess of the lock insert. In Fig. 4b, the locking member is between a state in which it is received by said locking member receiving recess and state in which it is not received by said locking member receiving recess. In Fig. 4c, the locking member is received by the locking member receiving recess of the lock insert;
Figs. 5a-b show a lock body, a lock insert and a locking element, all being part of a modular lock according to at least one exemplary embodiment of the present invention. Fig. 5a shows the locking element in its non-restricting state and Fig. 5b shows the locking element in its restricting state;
Figs. 6a-b show a lock body, a lock insert, an actuator and a locking element, all being part of a modular lock according to at least one exemplary embodiment of the present invention. Fig. 6a shows the locking element in its restricting state and Fig. 6b shows the locking element in its second non-restricting state; and
Fig. 7 shows a lock body without a lock insert, a locking element, or any fastening elements such as screws.

Detailed description

The invention will now by way of example be described in more detail by means of embodiments and with reference to the accompanying drawings.
Fig. 1a is a perspective view of a modular lock 1 arranged next to a fence door 2. Modular lock 1 comprises a lock body 3, a lock insert 5 and a tumbler 45.
Lock insert 5 is shaped as a square cuboid having four rectangular faces of equal dimensions, two square faces, and a longitudinal axis C going through said square faces. It should be understood that lock insert 5 may be shaped differently, e.g. as a cylinder or as a right prism.
With reference to Fig. 1b, lock insert 5 is adapted to receive a locking member 13 and comprises a locking member receiving recess 7. Locking member receiving recess 7 is arranged centrally on one of the four rectangular faces of lock insert 5. The opening of locking member receiving recess 7 is provided with a chamfer 23 arranged to guide locking member 13 into locking member receiving recess 7. Chamfer 23 can be provided on one or both of the upper and lower edge of the opening of locking member receiving recess 7, and on one or both of the lateral edges of the opening, as is shown in Fig. 1a-b. Chamfer 23 can also be provided either on only the lateral edges of the opening, or only on the upper and lower edge of the opening. In Figs. 1b, 2b and 4a-c, locking member 13 is provided in the form of a locking tongue. However, other forms are conceivable for the locking member. For example, the locking member could be shaped as a loop or a latch.
Lock body 3 comprises a lock insert receiving portion 9, arranged as a recess shaped for receiving lock insert 5. Lock insert receiving portion 9 is provided with two apertures 11 facing two different directions, so that lock insert 5 can be received by lock insert receiving portion 9 in two distinct orientations without preventing locking member receiving recess 7 from receiving locking member 13, i.e. apertures 11 are aligned with two of the possible positions in which lock insert 5 can be received by lock insert receiving portion 9. At least one of the two apertures 11 is big enough to allow lock insert 5 to be inserted into lock insert receiving portion 9 through it. It is of course possible that lock insert receiving portion is provided with more than two apertures 11, so that lock insert 5 can be received by lock insert receiving portion 9 in more than two positions. It is also possible that each of apertures 11 is wide enough to align with the locking member receiving recess 7 for more than one possible position of lock insert 5. Similarly, lock insert receiving portion 9 could be provided with only one aperture that is wide enough to allow lock insert 5 to be positioned in a plurality of positions without losing its ability to receive locking member 13.
In Fig. 1a, lock insert 5 is separated from lock insert receiving portion 9. In Fig. 1b, lock insert 5 has been received by lock insert receiving portion 9 and is arranged in a first orientation, which allows modular lock 1 to be used with swing doors.
Lock body 3 further comprises a handle 15 that can be used to maneuver the door or gate to which lock body 3 can be fastened, and a cover plate 35 that covers the inside of lock body 3.
In Fig. 2a-b, lock insert 5 has been mounted in a second orientation which allows modular lock 1 to be used with sliding doors. It should be understood that sliding doors also comprise sectional garage doors or curtain walling that slide upwards when opened.
Fig. 3a shows a perspective view of lock insert 5 and Fig. 3b shows an exploded view of lock insert 5. Lock insert 5 comprises a first insert portion 25, a second insert portion 27, a locking member receiving recess 7, a locking pin 17, a cylinder 19, rods 47, rod receiving recesses 49, and an indication device 21. First insert portion 25 and second insert portion 27 are arranged to accommodate at least locking pin 17, cylinder 19, rods 47, and indication device 21, which are all arranged to be held in place by the joining of first insert portion 25 and second insert portion 27. Rods 47 are held in place by rod receiving recesses 49, and are arranged to protect locking member receiving recess 7 from wear and to stabilize locking member 13 when it has been received by locking member receiving recess 7.
Both first insert portion 25 and second insert portion 27 are provided with chamfer 23. In addition to this, both first insert portion 25 and second insert portion 27 are provided with slanted protrusions 24, which are arranged to assist chamfer 23 in guiding locking member 13 into locking member receiving recess 7.
Indication device 21 is arranged to detect when locking member 13 has been received by locking member receiving recess 7. It does so by being provided with a proximity sensor 29, which sends a signal to communication unit 31 upon sensing the presence of a locking member 13. Said communication unit 31 then transmits this signal to a user, or a control system, by use of either wired or wireless communication, so that it is possible to know whether locking member 13 has engaged modular lock 1 or not. In Fig. 3a and 3b, communication device 31 is provided with a wire 32.
Locking pin 17 comprises a spring 33 and is provided in a position so that its central axis aligns with longitudinal axis C, thus making lock insert 5 mountable in any rotational position with respect to locking pin 17. Spring 33 is arranged to cause locking pin 17 to return to its starting position after being displaced axially in a direction away from locking member receiving recess 7. This is more clearly shown in Figs. 4a-c.
Figs. 4a-c show the interaction between locking member 13, locking pin 17, cylinder 19 and spring 33. In Fig. 4a, both locking pin 17 and cylinder 19 are in their starting positions and locking member 13 is separated from lock insert 5.
In Fig. 4b, locking member 13 is between a state in which it is received by locking member receiving recess 7 and a state in which it is not received by locking member receiving recess 7. Locking member 13, upon being received by locking member receiving recess 7, comes into contact with cylinder 19 and forces it to displace in a direction away from locking member receiving recess 7 and parallel with longitudinal axis C. In turn, cylinder 19 forces locking pin 17 to displace in the same direction. Thus, in Fig. 4b, locking pin 17 is in a displaced position and spring 33 is compressed.
In Fig. 4c, locking member 13 has been received by locking member receiving recess 7 and both cylinder 19 and locking pin 17 have been caused to return to their starting position by spring 33.
Locking pin 17 can be in either an unblocked mode or a blocked mode. In an unblocked mode, locking pin 17 is able to move from a starting position in a direction parallel with longitudinal axis C to a displaced position, thus compressing spring 33. In a blocked mode, locking pin 17 is prevented from moving from said starting position to said displaced position. Thus, locking member 13 can only be moved to and from locking member receiving recess 7 when locking pin 17 is in an unblocked mode. When locking pin 17 is in a blocked mode, cylinder 19 blocks part of locking member receiving recess 7 and, since locking pin 17 is prevented from moving from its starting position to its displaced position, prevents locking member 13 from being received by locking member receiving recess 7 (see Fig. 4a). When the locking pin 17 is in a blocked mode, the locking member 13 is also prevented from being removed from the locking member receiving recess 7 (see Fig. 4C).
Figs. 5a-b show schematic drawings showing the modular lock 1 after cover plate 35 has been removed. In Figs. 5a-b, it is shown that lock body 3 comprises a locking element 37 arranged to be moveable to and from a state in which it restricts the freedom of movement of locking pin 17. Locking element 37 can only enter a restricting state, i.e. a state in which it has been displaced so that it restricts the freedom of movement of locking pin 17, when locking pin 17 is in its starting position. When locking element 37 is in its restricting state, locking pin 17 is in its blocked mode. Conversely, when locking element 37 is in its non-restricting state, locking pin 17 is in its unblocked mode. The non-restricting state is characterized in that that when the locking element 37 is in a non-restricting mode a space 51 is formed into which space 51 the locking pin can be moved into, thus allowing for a locking member 13 to be received into the locking member receiving recess 7 or to be removed from the locking member receiving recess 7. When the locking element is in a restricting state the locking element 37 is arranged in a position such that there is no space 51 available and thus, when locking element 37 is in its restricting state, locking pin 17 is prevented from entering its displaced position. When locking pin 17 cannot enter its displaced position, locking member receiving recess 7 cannot receive or release locking member 13. In Fig. 5a, locking element 37 is shown in its non-restricting state and in Fig. 5b locking element 37 is shown in its restricting state. Figs. 5a-b also show the interaction between tumbler 45 and locking element 37. As shown in Figs. 5a-b, tumbler 45 is arranged as a key receiving unit which is arranged to move locking element 37 from its non-restricting state to its restricting state. Tumbler 45 could also be arranged as an electronically controlled tumbler that is arranged to move locking element 37 upon receiving a signal from a keycard receiving unit, a code lock unit, or similar.
Locking element 37 further comprises a locking bar 39. Locking bar 39 is provided with a recess 41 arranged to allow locking pin 17 to move from its starting position to its displaced position when locking bar 39 is rotated so that recess 41 aligns with locking pin 17. Thus, rotation of locking bar 39 while locking element 37 is in its restricting state causes locking element 37 to enter a second non-restricting state. This is shown in Figs. 6a-b. In Figs. 6a-b, locking element 37 is provided with an actuator (not shown) that facilitates this rotation.
Fig. 7 shows lock body 3 without lock insert 5 and locking element 37. Lock body 3 is symmetrical over a plane extending perpendicular to a central axis of lock insert receiving portion 9 and intersecting the center of lock body 3. In Fig. 7, lock body 3 is provided with a line of symmetry A. Lock body 3 being symmetrical enables lock insert 5, locking element 37 and any fastening elements to be arranged in a mirrored configuration compared to that which is disclosed in Figs.1-6. Thus, additional configurability of the modular lock is achieved.
The invention has mainly been described above with reference to a few embodiments. However, as is readily appreciated by a person skilled in the art, other embodiments than the ones disclosed above are equally possible within the scope of the invention, as defined by the appended patent claims.

Claims

Modular lock (1), for use in a machine guard system, comprising:
a lock body (3) adapted to be fastened to a doorframe, a door, or a gate, wherein said lock body (3) comprises a lock insert receiving portion (9), and a lock insert (5) adapted to be received by said lock insert receiving portion (9), wherein said lock insert (5) is adapted for receiving a locking member (13),

wherein said lock insert (5) is mountable in at least two distinct positions relative to the lock insert receiving portion (9) such that said modular lock (1) is usable for locking both sliding doors and swing doors,

characterized in that said lock body (3) is symmetrical over a plane extending perpendicular to a central longitudinal axis (C) of the lock insert (5) and which intersects the center of the modular lock (1) and the center of the lock insert receiving portion (9).
A modular lock (1) according to claim 1, wherein in a first position of said at least two distinct positions, said lock insert (5) is, relative to a second position of said at least two distinct positions, rotated in relation to said lock insert receiving portion (9).
A modular lock (1) according to claim 2, wherein said first position of said at least two distinct positions is separated from said second position of said at least two distinct positions by at least 20°.
A modular lock (1) according to any one of the previous claims, wherein said lock insert (5) comprises a locking member receiving recess (7).
A modular lock (1) according to claim 4, wherein said lock insert (5) comprises a locking pin (17) arranged along a central longitudinal axis of said lock insert (5), said locking pin (17) having a blocked mode and an unblocked mode,
wherein said locking pin (17) is arranged to prevent said locking member (13) from being received by and removed from said locking member receiving recess (7) when said locking pin is in said blocked mode, and
wherein said locking pin (17) is arranged to allow said locking member (13) to be received by and removed from said locking member receiving recess (7) when said locking pin (17) is in said unblocked mode.
A modular lock (1) according to claim 5, wherein said modular lock (1) comprises a locking element (37), wherein said blocked mode is caused by said locking element (37) being arranged so that it prevents said locking pin (17) from entering said unblocked mode.
A modular lock (1) according to claim 6, wherein said locking element (37) has at least a non-restricting state and a restricting state,
wherein in said non-restricting state, said locking element (37) is arranged so that said locking pin (17) can move between said blocked mode and said unblocked mode, and
wherein in said restricting state, said locking element (37) has been displaced relative to said non-restricting state so that said locking element (37) is restricting the freedom of movement of said locking pin (17).
A modular lock (1) according to claim 7, wherein in said restricting state, said locking element (37) has been axially displaced relative to said non-restricting state so that said locking element (37) is restricting the freedom of movement of said locking pin (17).
A modular lock (1) according to claim 7, wherein said locking element (37) comprises a locking bar (39) comprising a recess (41),
wherein in said non-restricting state, said locking bar (39) is rotated around its central axis relative to said restricting state so that said recess (41) is arranged so that said locking pin (17) can move between said blocked mode and said unblocked mode.
A modular lock (1) according to claim 8, wherein said locking element (37) comprises a locking bar (39) comprising a recess (41),
wherein said locking element (37) has at least a second non-restricting state, wherein in said second non-restricting state, said locking bar (39) is rotated around its central axis relative to said restricting state so that said recess (41) is arranged so that said locking pin (17) can move between said blocked mode and said unblocked mode.
A modular lock (1) according to any one of the previous claims, wherein said modular lock (1) is mountable on doors or gates that are either left hinged or right hinged.
A modular lock (1) according to any one of the previous claims, wherein said modular lock (1) comprises a backplate, wherein said modular lock (1) is mountable to said doorframe, door or gate by means of fastening said backplate to said lock body (3) so that said doorframe, door or gate is held in place between said backplate and said lock body (3) by means of friction.
A modular lock (1) according to any one of claims 7-9, wherein said locking element (37) comprises an actuator, wherein said actuator is arranged to at least move said locking element (37) back and forth from said second non-restricting state to said restricting state.
A modular lock (1) according to any one of the previous claims, wherein said locking member (13) is a locking tongue.
Locking system comprising:
a modular lock (1) according to any one of the previous claims, and

a locking member (13) adapted to be fastened to a doorframe, a door, or a gate,

wherein said modular lock (1) is adapted to receive said locking member (13).