荷兰专利NL2019826A Lock system for doors

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专利摘要:
System for locking doors, in particular of a door of a living space or loading space bounded by walls, comprising - a first locking assembly with a first locking member and an associated second locking member, the first or the second locking member being movable from the first locking assembly between a locking position in which the two locking parts are in locking engagement with each other for preventing movement of the door from its closed position, and a release position in which the two locking parts are out of locking engagement with each other for allowing a movement of the door the door to an open position, an operating device with a first elongated operating element arranged on the inside of a wall of the living space or loading space and connected to the movable one of the two locking parts for displacing it between the locking position and the releasing position , where the first operating element nt is movable between a rest position in which the movable one of the two locking parts is in the release position and an operating position, in which the movable one of the two locking parts is in the locking position, the operating device further comprising: -a control slide, which is provided with a sliding lock that extends through the wall in the lock direction and is linearly displaceable in that direction between an access position projecting from the wall and a lock position retracted into the wall; and a transfer mechanism disposed on the inside of the wall and operable between the sliding lock and the first operating element for converting the linear movement of the sliding lock to its lock position to said movement of the first operating element to its operating position, and preferably also vice versa.
公开号:NL2019826A
申请号:NL2019826
申请日:2017-10-30
公开日:2018-05-04
发明作者:Franciscus Maria Haarhuis Willibrordus
申请人:Franciscus Maria Haarhuis Willibrordus；
IPC主号:

专利说明:

Bolt system for doors
BACKGROUND OF THE INVENTION
The invention relates to a locking system for doors, in particular for doors of living spaces or loading spaces, such as freight and storage containers. The invention furthermore relates to a living space or loading space provided with a locking system according to the invention.
Various locking systems are known for the unauthorized opening of doors of freight containers. A known one is shown inter alia in US patent 3,544,145, in which two vertical bars are provided per door, which are rotatably guided by brackets mounted on the door and are provided with a pawl at each of their ends. Above and below the doors, on the frame of the container, hooks are provided, with which the catches can be brought into locking engagement by turning the rods with the aid of pivot rods mounted thereon. The swivel bar can be placed against the door and locked in that position with a lock.
Another locking system is known from NL patent application 90.00715, which system comprises a two-part bracket, wherein each bracket part can be placed with one end in a corner fitting and then both bracket parts with the other ends can be brought together and fixed to each other.
In both of the known systems there are a number of parts located on the outside of the doors, which are visible to unauthorized persons and thus offer (visible) points of engagement for burglary tools.
SUMMARY OF THE INVENTION
An object of the invention is to provide a locking system for doors of spaces that is only slightly susceptible to opening by unauthorized persons.
An object of the invention is to provide a locking system for doors of spaces that is only slightly susceptible to damage during handling and / or use.
It is an object of the invention to provide a competent system which is easy to operate for doors of spaces.
An object of the invention is to provide a locking system for doors of transportable spaces, in particular containers, in particular freight and / or storage containers.
To achieve at least one of these objects, or other objects, the invention provides, from one aspect, a system for locking doors, in particular a door of a living space or loading space bounded by walls, comprising - a first latch assembly with a first latch part and an associated second latch part, the first or second latch part of the first latch assembly being movable between a latch position in which the two latch parts are in latching engagement with each other to prevent movement of the door from the closed position thereof, and a release position in which the two locking parts are out of locking engagement with each other for allowing movement of the door to an open position, an operating device with a first arranged on the inside of a wall of the living space or loading space elongated operating element connected to the movable one of the both locking members for moving them between the locking position and the releasing position, the first operating element being movable between a rest position in which the movable one of the two locking members is in the releasing position and an operating position in which the movable one of the two locking parts is in the locking position, the operating device further comprising: - an operating slide, which is provided with a sliding lock that extends through the wall in the lock direction and is linearly displaceable in that direction between an access position projecting from the wall and an access position projecting from the wall retracted closing position; and a transfer mechanism disposed on the inside of the wall and operable between the sliding lock and the first operating element for converting the linear movement of the sliding lock to its lock position to said movement of the first operating element to its operating position, and preferably also vice versa.
In the system according to the invention, the locking condition can be easily brought about by exerting a pushing force, in particular with manual force, on the sliding lock for sliding it into place. In the locking state, only the end of the sliding lock provided with the key opening need to be visible, the other parts of the system being hidden. That end may possibly be surrounded by a rosette. In one embodiment, only the end face with key opening will have to be visible in that state. A usable gripping part for breaking tools is at least practically absent. In the locking position, the system is hardly susceptible to damage during transport operations in the case of a movable unit.
In one embodiment, the wall on which the operating slide with sliding lock is arranged is the door, the operating element and the movable locking part connected thereto being arranged on the door, in particular on the inside of the door, in particular near the closing edge of the door . The non-movable of the first and the second locking part can be arranged on a horizontal wall of the loading space, such as a roof or a bottom.
In a further development, in which a double locking can be realized in a simple and parallel manner, the system further comprises: -a second locking assembly with a third locking member and an associated fourth locking member wherein the third or fourth locking member of the second locking assembly is movable between a locking position in which the two locking parts are in locking engagement with each other for preventing movement of the door from its closed position, and a release position in which the two locking parts are out of locking engagement with each other for allowing movement of the door door to an open position, wherein the operating device comprises a second elongated operating element which is connected to the movable one of the third and fourth locking parts for moving it between the locking position and the releasing position, wherein the second operating element is movable between a rest position in which the moveb one of the third and fourth locking parts is in the release position and an operating position, in which the movable one of the third and fourth locking parts is in the locking position, the transmission mechanism also operating between the sliding lock and the second operating element for the converting the linear movement of the sliding lock to its lock position to said movement of the second operating element to its operating position, and preferably also vice versa.
In the above-mentioned embodiment, in which the sliding gate with sliding lock is arranged on the door, both the first and the second elongated operating element and the movable locking parts connected thereto can be arranged on the inside of the door, in particular near the closing edge of the door. The non-displaceable locking parts can then be arranged on a horizontal wall of the loading space, such as a roof or a bottom.
In one embodiment the first operating element is linearly displaceable in a first direction between the rest position and the operating position, wherein the sliding lock is linearly displaceable transversely of the first direction between the access position protruding from the wall and the locked position retracted into the wall.
In one embodiment the second operating element is linearly displaceable in a second direction between the rest position and the operating position, wherein the sliding lock is linearly displaceable transversely of the second direction between the access position projecting from the wall and the lock position retracted into the wall.
In a simple embodiment, the first and second directions are parallel to each other.
In a simple and / or robust embodiment, the first and / or second operating element can be rod-shaped. The respective operating element can extend at least substantially vertically. The door can have a vertical hinge axis.
In an embodiment with first and second operating rods with associated locking parts, these can form an espagnolette closing mechanism.
Alternatively, the first and / or second operating element can in each case comprise a cable, in particular a Bowden cable.
In one embodiment, at least one of operating slider, first and / or second operating element and movable one of first and second locking parts and / or movable one of third and fourth locking parts is tensioned to the access position, rest position and release position, respectively.
The first and second locking members can form an assembly of locking pin and locking stop. The third and fourth locking members can form an assembly of locking pin and locking pin stop. The locking pin stop can be a locking pin sensor, such as a plate with a pin receiving hole or a ring with a pin receiving eye. In one embodiment, the locking pin and the locking pin stop form the movable part and the stationary part of the locking assembly, respectively. Each locking pin preferably forms a movable unit with the associated operating element, in particular operating rod.
The transfer mechanism can be designed in various ways. In one embodiment the transfer mechanism is designed for converting the linear movement of the sliding lock to the movement, in particular linear movement, of the first and / or second operating element, and vice versa, by rotation, in particular rotation in a plane that is parallel to those two directions of movement. In one embodiment the transfer mechanism is provided with a transfer plate rotatable about a pivot point, wherein the operating slide and the transfer plate are connected to each other by means of a pin-slot connection for imposing a rotational movement on the transfer plate when the sliding lock is moved in the lock direction to the closing position, wherein each said operating element and transfer plate are connected to each other by means of a rotary connection for imposing the displacement, in particular linear displacement, on the relevant operating element, to the operating position thereof, during said rotational movement of the transfer plate. In the case of the two (first and second) operating elements, these can be connected to a common transfer plate, or each can be connected to a separate transfer plate. In the latter case, both transfer plates can be located one above the other. They can be engaged by the same operating slider. The pivot points of both transfer plates can be located on opposite sides, in particular above and below, the path of the operating slide.
The axis of rotation of the point of rotation of the relevant transfer plate can be transverse to the lock direction and transversely to said first and / or second direction. The relevant transfer plate can be tensioned to a position in which the sliding lock is in the access position.
For promoting force transfer and thereby operation, the distance between the pivot point and the pin of the connection control slide transfer plate may be greater than the distance between the pivot point and the pin of the connection transfer plate control element.
In one embodiment, the pin of the control slide-transfer plate connection is attached to the control slide and the slot is provided in the relevant transfer plate.
The lock of the sliding lock can comprise a cylinder lock and a connecting part forming one slidable whole that is in effective engagement with the transmission mechanism. The connecting part can be a tube with a connecting pin for connection to the transfer mechanism.
From a further aspect the invention provides a door for passage of persons, provided with the operating device with operating slide and transmission mechanism of the system according to the invention, as well as with the locking parts displaceable by the operating device.
From a further aspect, the invention provides a loading space or storage space with a door, provided with a locking system according to the invention for that door, in particular external door.
From a further aspect the invention provides a living space, in particular an office, with a door, provided with a locking system according to the invention for that door, in particular external door.
The loading space, storage space or accommodation space can be in the form of a movable unit, such as a so-called sea container or freight / storage container, such as TEU 10, TEU 20, TEU 40 or High Cube container. Alternatively, the loading space can be part of a truck or commercial vehicle.
The aspects and measures described in this description and claims of the application and / or shown in the drawings of this application can, where possible, also be applied separately from each other. These individual aspects can be the subject of split-off patent applications that are aimed at this. This applies in particular to the measures and aspects that are described per se in the subclaims.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention will be elucidated on the basis of an exemplary embodiment shown in the accompanying drawings. Shown is:
Figure 1 is an isometric view of a freight container according to the invention;
Figures 2A and 2B show details of an exemplary embodiment of a control device for a locking system according to the invention, respectively in release position and in locking position;
Figures 2C and 2D show a schematic side view and front view, respectively, of a part of an operating device for a locking system according to the invention, with the arrangement of figures 2A and 2B;
Figures 3A and 3B show a part of a container with a locking system according to the invention with the operating device of figures 2C and 2D, respectively in the release position and the locking position; and
Figures 4A and 4B show an example of an alternative embodiment of a control device for a locking system according to the invention, respectively in release position and in locking position.
DETAILED DESCRIPTION OF THE DRAWINGS
The freight container 1 in Figure 1 is provided with steel walls on the six sides, such as the top wall 2, the bottom wall 3, the two long side walls 4a, b and the short side walls 5a, b. The walls 2,3,4a, b and 5a are fixed, the wall 5b comprises two doors 6a, b, which can be locked in the closed position with the aid of a locking system 10 according to the invention, comprising an operating device 7 with a lock 8a to be. The door 6b is provided on the closing edge 6 "with a closing strip that falls over the closing edge 6" of the door 6a, so that when fixing the position of door 6b the door 6a is also locked in position.
The locking system 10 comprises the lock 8 (see Figures 2A and 2B), which is a retractable and extendable lock, with a cylinder 8a which is provided at one end with a keyhole 28 and in the lock direction A1 and back (A2) back and forth is again slidable, here horizontally, in a guide tube 11 fixed with the door 6b, which tube is made of hardened steel and extends through the door 6b and is provided with a bolt stop 11a. The cylinder 8a is provided with a bolt 8b tensioned outward by an internal spring. The cylinder 8a is mounted in a connecting tube 8c, for connection to the transmission mechanism to be discussed, which tube is provided with a hole for the bolt 8b and is continued to the rear and is provided with a cross pin 12 near the rear end 12. The cross pin 12 is slidable, with both ends, guided in horizontal slots 13 of a pair of vertical plates 14 mounted on the inside of the door 6b. The transverse pin 12 is further guided in a straight slot 15 in a transfer plate or pivot plate 16, which plate 16 is in place of pin 17 is rotatably mounted in a vertical plane (directions B1, 2) to the plates 14 and disposed between them.
The plates 14 are further provided with circle segment-shaped slots 18a, b, which are concentric with respect to the pin 17 and into which transverse pins 19a, b are guided. The distance between the path of the transverse pin 12 and the pin 17 is greater than the distance between the pin 17 and the transverse pins 18a, b, in this example about three times as large.
The transverse pins 19a, b are attached to the free ends of yokes 20a, b, which form part of elongated operating elements, here embodied as operating rods 21a, b, see also Figures 2C and 2D. The rotary plate 16 is a common rotary plate for both operating rods 21a, b. The yokes 20a, b are pivotally connected via hinges 27a, b to intermediate bars 28a, b which are attached with their ends 29a, b in blind holes of locking parts, here locking pins 22a, b. The operating rods 21a, b extend upwards and downwards, respectively, and are movable up and down, in first (C1,2) and second (D1,2) directions. The locking pins 22a, b are guided in U-shaped profiles 23a, b which are attached to the inside of the door 6b. The two legs 24a, b of the profiles 23a, b are provided with holes 25a, b in which the locking pins 22a, b are accommodated in a slidable, suitable manner. Compression springs 31a, b are arranged between the outer legs 24a, b and stop pins 30a, b secured to the locking pins 22a, b.
The locking pins 22a, b are intended to cooperate lockingly with the other locking members, here locking receiving holes 26a, b which form locking pin stops and are provided in the top wall 2 and the bottom wall 3 of the container 1, see Figures 3A and 3B, respectively. The locking pins 22a, b and the receiving holes 26a, b form locking assemblies.
The operating rods 21a, b, cross pins 19a, b, pivot plate 16 and lock 8 form an operating device 7 for the locking pins 22a, b. The pivot plate 16 and transverse pins 12 and 19a, b form a transmission mechanism 9 which forms part of the operating device. The sliding lock 8 forms an operating slide of the operating device.
In use, the doors 6a, b are brought into the closed position, first door 6a and then door 6b, with the closing edges 6 ", 6" next to / against each other, the closing strip covering the joint between those closing edges. The lock cylinder 8a, see figures 2A, extends well out of the door 6b in the illustrated access position. The lock bolt 11 is also located outside the door 6b. The user pushes the sliding lock 8 in the lock direction A1 to the lock position, figure 2B. Upon arrival, the bolt 8b is forced inwards against the front edge of the guide tube 11, against the spring action, and finally comes behind the bolt stop 11a where the bolt 8b can again be forced out by the spring and the lock 8 is in the locked position is located. In this displacement, the cross pin 12 is also displaced in the direction A1 through the slots 13 with the tube 8c. The transverse pin 12 extending into the slot 15 of pivot plate 16 forces the pivot plate 16 to rotate about the pin 17 in direction B1.
The transverse pins 19a, b follow the rotational movement of the pivot plate 16. This forces the yokes 20a, b respectively up and down, which movement is transmitted via the hinge pins 27a, b to the intermediate bars 28a, b. The operating rods 21a, b are thus forced, from the rest position, upwards, towards C1, and downwards, towards D1, to the operating position. As a result, the locking pins 22a, b from the release position, upward, toward C1, and downward, toward D1 are forced to step outside the upper edge and lower edge of the door 6b and to be received in the locking pin receptacles 26a, b, see the state of Figure 3B. The springs 31a, b are chosen such that sufficient force can be exerted manually on the lock slide 8 to expand the locking pins 22a, b against the spring pressure. The operating rods 21a, b are now in the operating position. The locking pins 22a, b are now in the locking position.
The position of the turntable is locked by means of the bolt 8b and bolt stop 11a and the removal of the key, if present. The cylinder 8a does not protrude, or hardly so, from the door 6b, and can optionally be optimally protected by a hardened steel rosette.
Upon unlocking the doors 6a, b the user inserts the key into the keyhole of the cylinder 8a, turns the key to retract the bolt 8b and thereby release it from the bolt stop 11a. As a result, the lock 8 can move in the direction A2 and the pivot plate 16 can also be turned back, and thus also the operating rods 21a, b can be moved towards each other, to the rest position of Fig. 3A. This takes place under the influence of the tension of the compressed compression springs 31a, b, which force the locking pins 22a, b in the directions C2 and D2, downwards and upwards, from the locking position, to a release position in which they wholly disappear from the locking receiving holes 26a, b have entered. Due to the respective downward and upward movement of the locking pins 22a, b, the operating rods 21a, b are forced to the rest position, and therefore the yokes 20a, b are forced towards each other, and thus the pins 19a, b. As a result, the pivot plate 16 is rotated in the direction B2 around pin 17. By means of the transverse pin 12 extending into slot 15 and into slot 13, this rotation is converted to a shift of the sliding lock 8 in the outward direction, direction A2, to its access position, whereafter the state of Fig. 3A is obtained. The door 6b is then released.
Instead of a more or less stiff, pressure-transmitting rod connection between turntable and locking pin, a cable connection can be chosen, such as with a Bowden cable. The turntable then converts the linear displacement of the sliding lock to a shortening or extension of that cable, thereby achieving the displacement of the locking pin.
Figures 4A and 4B show an embodiment of a locking system 10 according to the invention, which differs from the previously discussed locking system, inter alia in that a separate transfer plate / turntable plate 16a, b is provided for each operating rod 21a, b. Each pivot plate 16a, b is rotatably attached via a pin 17a, b about a horizontal axis of rotation to two plates 14, located next to each other, between the two plates 14. The one pivot pin 17a lies above the path of the pin 12, the other pivot pin 17b down there. Each pivot plate 16a, b has a slot 15a, b for the cross pin 12 on the tube 8c. The operating rods 21a, b are provided at their inner ends with pins 19a, b which are guided in circle segment-shaped slots 18a, b in the two plates 14. The distance between the pin 19a, b and pin 17a, b is in both pivotal plates 16a, b smaller than the distance between the pin 12 and the pin 17a, b, in this example about half thereof. An advantage of this split into two turning plates is that the displacement paths of both pins 19a, 19b can be located one above the other, as a result of which the installation length in directions A1,2 can be limited, and the transmission mechanism 9 can for a large part be located within the door 6b. to be.
When the sliding lock 8 is pressed in the direction A1 (the two turning plates 16a, b will rotate in opposite directions about the respective pins 17a, b, directions B1, B2, while the pin is guided through slots 13. The slots 15a, b provide sufficient length for unimpeded movement of the pin 12 through the vertical plane containing the axis of rotation of the pins 17a, b.
A valve 40 is also shown for covering the lock 8 in the closing position against weather influences. It is further noted that only the door 6b is shown, it will be understood that the locking pins 22a, b are intended to reach into stationary locking receiving holes 26a, b (Figures 3A, B) or the like for locking the door 6b.
The invention (and is in no way limited to the embodiments shown and described in the drawings and description. The above description is included to illustrate the operation of preferred embodiments of the invention and not to limit the scope of the invention. Starting from the above explanation will be clear to a person skilled in the art many variations that fall within the spirit and scope of the present invention. Variations are possible of the parts shown in the drawings and described in the description. They can be used separately in other embodiments of the invention. Invention (s) Parts of various given examples can be combined with each other.

权利要求:
Claims (28)
[1]
CLAIMS 1. A system for locking doors, in particular a door of a room or loading space bounded by walls, comprising - a first latch assembly with a first latch part and an associated second latch part, the first or second latch part of the first latch assembly is movable between a locking position in which the two locking parts are in locking engagement with each other for preventing movement of the door from its closed position, and a release position in which the two locking parts are out of locking engagement with each other for admitting a movement of the door to an open position, an operating device with a first elongated operating element arranged on the inside of a wall of the living space or loading space and connected to the movable one of the two locking parts for moving it between the locking position and the release position, where the first control ement can be moved between a rest position in which the movable one of the two locking parts is in the release position and an operating position, in which the movable one of the two locking parts is in the locking position, the operating device further comprising: -a control slide, which is provided with a sliding lock that extends through the wall in the lock direction and is linearly displaceable in that direction between an access position protruding from the wall and a lock position retracted into the wall; and a transfer mechanism disposed on the inside of the wall and operable between the sliding lock and the first operating element for converting the linear movement of the sliding lock to its lock position to said movement of the first operating element to its operating position, and preferably also vice versa.
[2]
The system of claim 1, further comprising a second locking assembly with a third locking member and an associated fourth locking member wherein the third or fourth locking member of the second locking assembly is movable between a locking position in which the two locking members are in locking engagement with each other for preventing movement of the door from its closed position, and a release position in which the two locking parts are out of locking engagement with each other for allowing movement of the door to an open position, the operating device comprising a second elongated operating element which is connected to the movable one of the third and fourth locking parts for moving it between the locking position and the releasing position, the second operating element being movable between a rest position in which the movable one of the third and fourth locking parts are located in the releasing position state and an operating state, wherein the movable one of the third and fourth locking members is in the locking position, the transfer mechanism also being operative between the sliding lock and the second operating element for converting the linear movement of the sliding lock to its locked position to said movement of the second operating element according to their operating status, and preferably also vice versa.
[3]
3. System as claimed in claim 1 or 2, wherein the wall on which the operating slide is mounted is the door and wherein the first and / or second operating element with movable locking part connected thereto is arranged on the door, in particular on the inside of the door, in particular near the closing edge of the door.
[4]
System as claimed in claim 1, 2 or 3, wherein the first or the second locking part, in particular the non-movable locking part, is arranged on a horizontal wall of the loading space, such as a roof or a bottom and / or wherein the third or the fourth locking part, in particular the non-movable locking part, is arranged on a horizontal wall of the loading space, such as a roof or a bottom.
[5]
System as claimed in any of the foregoing claims, wherein the first operating element is linearly displaceable in a first direction between the rest position and the operating position, wherein the sliding lock is linearly displaceable transversely of the first direction between the access position protruding from the wall and the access position protruding from the wall retracted closing position.
[6]
6. System as claimed in any of the claims 2-5, wherein the second operating element is linearly displaceable in a second direction between the rest position and the operating position, wherein the sliding lock is linearly displaceable transversely of the second direction between the access position protruding from the wall and the access position protruding from the wall. the wall position withdrawn.
[7]
System according to claims 5 and 6, wherein the first direction and / or the second direction and the lock direction are perpendicular to each other.
[8]
A system according to claims 5 and 6 or according to claim 7, wherein the first and second directions are parallel to each other.
[9]
9. System as claimed in any of the foregoing claims, wherein the first and second locking parts form an assembly of locking pin and locking pin stop.
[10]
10. System as claimed in any of the claims 2-9, wherein the third and fourth locking parts form an assembly of locking pin and locking pin stop.
[11]
11. System as claimed in claim 9 or 10, wherein the locking pin and the locking pin stop respectively form the movable part and the stationary part of the locking assembly.
[12]
12. System as claimed in any of the foregoing claims, wherein the first and / or the second operating element comprises a cable, in particular Bowden cable.
[13]
13. System as claimed in any of the claims 1-11, wherein the first and / or the second operating element is rod-shaped.
[14]
14. System as claimed in claim 13, wherein the first and second rod-shaped operating elements with associated locking parts form an espagnolette closing mechanism.
[15]
System as claimed in any of the foregoing claims, wherein at least one of operating slider, first and / or second operating element and movable one of first and second locking parts and / or movable one of third and fourth locking parts is tensioned to the access position, rest position and release position, respectively. position.
[16]
16. System as claimed in any of the foregoing claims, wherein the transfer mechanism is designed for converting the linear movement of the sliding lock to the movement, in particular linear movement, of the first and / or second operating element, and vice versa, by rotation, in particular rotation in a plane parallel to those two directions of movement.
[17]
17. System as claimed in claim 16, wherein the transfer mechanism is provided with a transfer plate rotatable about a pivot point, wherein the operating slide and the transfer plate provided for this purpose are connected to each other by means of a pin-slot connection for imposing a rotational movement on the transfer plate at movement of the sliding lock in the lock direction to the lock position, wherein each said operating element and the transfer plate provided for this purpose are connected to each other by means of a rotary connection for imposing said movement on the relevant operating element, to its operating position, during said rotational movement of said lock transfer plate.
[18]
A system according to claim 16 or 17, when dependent on claim 2, wherein the first and second operating elements are connected through respective rotary connections to a common transfer plate.
[19]
19. System as claimed in claim 16 or 17, when dependent on claim 2, wherein the first and second operating elements are each connected to their own transfer plate through relevant rotary connections.
[20]
A system according to claim 19, wherein the pivot points of both transfer plates are located on opposite sides, in particular above and below, the path of the operating slide.
[21]
A system according to any one of claims 17-20, wherein the relevant transfer plate is tensioned to a position in which the operating slide is in the access position.
[22]
A system according to any one of claims 17-21, wherein in each case the distance between the pivot point and the pin of the connection control slide transfer plate is greater than the distance between the pivot point and the pin of the connection transfer plate control element.
[23]
A system according to any of claims 17-22, wherein the pin of the connection control slide-transfer plate is attached to the control slide and the slot is provided in the relevant transfer plate.
[24]
A room with a door, provided with a system according to any one of the preceding claims, for that door, in particular external door.
[25]
25. Loading space with a door, provided with a system according to any one of claims 1-23, for that door, in particular external door.
[26]
26. Residential space or loading space / storage space according to claim 24 or 25, designed as a movable unit, such as standard container.
[27]
27. Door for passage of persons, provided with the operating device with operating slide and transmission mechanism of the system according to one of claims 1-23, and with the locking parts movable by the operating device.
[28]
28. System provided with one or more of the characterizing measures described in the attached description and / or shown in the attached drawings.

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公开号 | 公开日

WO2018080307A1|2018-05-03|

NL2019826B1|2018-05-24|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US1174652A|1912-10-23|1916-03-07|Edmund H Banks|Automatic twin door-latch.|

AU2003236199A1|2002-04-25|2003-11-10|Pinlock Systems Aps|A combination lock|

DE102006038988B4|2006-08-21|2014-05-28|Johnson Controls Interiors Gmbh & Co. Kg|Flap with a locking and unlocking device|

JP6031523B2|2012-08-23|2016-11-24|株式会社パイオラックス|Opening and closing body locking device|

DE202013102641U1|2013-06-19|2014-09-23|Maco Technologie Gmbh|Hardware for windows or doors|WO2020026090A2|2018-07-30|2020-02-06|Mac Donald David Johannes|Intermodal container door lock|

法律状态:
2021-06-02| MM| Lapsed because of non-payment of the annual fee|Effective date: 20201101 |

优先权:

申请号 | 申请日 | 专利标题

NL1042122|2016-10-28|

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