RU2133810C1 - Lock - Google Patents

Abstract

FIELD: locking devices. SUBSTANCE: lock is of higher protection against breaking open by skeleton-key, and it has operating mechanism and secrecy mechanism including following components: body which is adapted for turning, cylinder with protrusion, base, tail-piece. Made in lock body and cylinder are two main longitudinal passages. Seated in each of these passages with possibility of engagement with each other in initial position are code-receiving pin and two coding spring-biased pins. Also provided are coding balls located in longitudinal passages of body above coding pins, drum which is adapted for possible turning between cylinder and tail-piece, two spring-biased spools and coupling unit which is made in the form of ball and spring-biased rod which can engage with ball in initial position. Lock body is made with angle-setting slot, recess in end surface at side of cylinder and recess at side of drum. Cylinder has recess in end surface at side of drum and also has additional longitudinal passage. Drum is made with two main longitudinal passages, also with additional longitudinal passage, slot and recess in end surface at side of cylinder. Tail-piece has slot. Base is provided with bore at side of tail-piece and with recess at side of drum. Coding pins are made of two sizes and they differ by value of diameter of ball which is installed above them. First spring-biased spool is installed in additional longitudinal passage of cylinder and is adapted for alternate seating of ends of its rod in recesses of body and drum. Second spring-biased spool is installed in additional longitudinal passage of drum for possible alternate location of ends of its rod in recesses of body and base. Ball of coupling unit is seated in drum bore and is adapted for alternate positioning of half of its diameter respectively in recess of cylinder or in slot of tail-piece. Rod of coupling unit is installed in base bore which is located perpendicular to axis of tail-piece and to slot of tail-piece at initial position of lock. EFFECT: higher efficiency. 1 cl, 17 dwg

Description

 The invention relates to locking devices, in particular, to a cylinder mechanism of increased secrecy, which can be used for installation on doors for various purposes.

 A cylinder lock mechanism is known, comprising a housing with longitudinal holes in which spring-loaded fixing pins are located, a revolving core with a hub having longitudinal holes in which the coding pins are located, and a key ring end groove.

 US 3681955, 70-363, 1972

 The closest technical solution to the invention is a lock comprising an actuator and a secrecy mechanism, comprising a housing mounted to rotate a cylinder with a protrusion, a base, a shank of at least two main longitudinal channels in the housing and the cylinder and placed in each of them with the possibility of interaction with each other in the initial position, a code-receiving pin, and two coding spring-loaded pins.

 SU, 802488, E 05 B 27/08, 1981

 The disadvantage of this design of the lock is that it does not provide reliable protection against master keys and is easily vulnerable to drilling.

 The objective of the invention is to create a lock structure that provides guaranteed protection against master keys and other hacking methods.

 This problem is solved in the lock, including the actuator and the secrecy mechanism, comprising a housing mounted to rotate a cylinder with a protrusion, a base, a shank of at least two main longitudinal channels in the housing and the cylinder and placed in each of them with the possibility of interaction between each other in the initial position, the coding pin, and two coding spring-loaded pins, due to the fact that it is equipped with coding balls installed in the longitudinal channels of the casing above the coding pins, are installed angled with the possibility of rotation between the cylinder and the shank, the drum, two spring-loaded spools and a clutch assembly made in the form of a ball and installed with the possibility of interacting with it in the initial position of the spring rod, the housing is made with an angular groove, a recess on the end surface from the cylinder side and a recess from the drum side, the cylinder is made with a recess on the end surface from the side of the drum and with an additional longitudinal channel, the drum is made with two main longitudinal channels, an additional longitudinal channel, a groove and a recess on the end surface from the side of the cylinder, the shank is made with a groove, and a base with a bore on the end surface from the side of the shank and a recess from the side of the drum, the coding pins are made in lengths of two sizes, the size of which differs by the diameter of the ball mounted above them, the first spring-loaded spool is installed in an additional longitudinal channel of the cylinder with the possibility of alternately placing the ends of its rod in the recesses of the housing and the drum, the second spring-loaded spool is installed in an additional longitudinal channel of the drum with the possibility of alternately placing the ends of its rod in the recesses of the housing and base, the clutch assembly ball is located in the groove of the drum with the possibility of alternately placing half of its diameter, respectively, in the recess of the cylinder or in the groove of the shank, and the clutch assembly rod is installed in the base bore made perpendicular to the axis of the shank and the groove of the latter in the initial position of the lock. This problem is also solved due to the fact that the actuator contains a base with two rectangular holes and with an opening for placing the shank of the secrecy mechanism, a drive lever with a rotating roller at the end, a spring-loaded locking lever with a roller, figured link and two crossbars, each of which consists of from interconnected with the possibility of longitudinal movement of the spring plate and the bolt hook, the latter being located in the rectangular holes of the base with the possibility of rotation and kinematically connected by curly thrust, and the drive and locking levers are mounted, respectively, on the shank of the secrecy mechanism and the axis of one of the crossbar plates with the possibility of rotation and interaction of their rollers with the curly disc of the secrecy mechanism.

In FIG. 1 shows a castle, (general view) from the outside;
in FIG. 2 - castle, general view from the inside of the room;
in FIG. 3 - security mechanism of the lock assembly with a key (section);
in FIG. 4 - secrecy mechanism, section through the code-receiving and coding pins before entering the key;
in FIG. 5 is the same as FIG. 4 - after entering the key;
in FIG. 6 is the same as FIG. 5 - when turning the body;
in FIG. 7 is the same as FIG. 6 - when turning the cylinder in case of working with your key;
in FIG. 8 is the same as FIG. 7 - when working with a foreign key;
in FIG. 9 - secrecy mechanism, section along spools;
in FIG. 10, 11 and 12 - secrecy mechanism, section through the clutch assembly of the work stage with its key;
in FIG. 13-14 are the same as FIG. 10-12 when working with a foreign key;
in FIG. 15-16 - the actuator of the lock in the "open" and "closed"position;
in FIG. 17 - the actuator of the lock when trying to unclench bolts.

The lock consists of a secrecy mechanism 1, an actuator 2 of a bolt plate 3 (Fig. 16), a face plate 4 and an arm ring 5. The secrecy mechanism includes:
- an external handle 6 having a channel 7 for inputting a key perpendicular to the axis of the secrecy mechanism;
- the housing 8, made with the main longitudinal channels 9 for accommodating the code-receiving pins 10 and coding balls 11, with an angular groove 12 (Fig. 6) and a recess 13 at the lower end (Fig. 9);
- a cylinder 14 made with the main longitudinal channels 15, with an angled protrusion 16, an additional longitudinal channel 17 for accommodating the first spring-loaded spool 18 (Fig. 9) and a recess 19 (Fig. 12) for the interaction of the cylinder with the clutch assembly element - ball 20 in initial position of the lock;
- a drum 21 made with the main longitudinal channels 22, an angular groove 23 (Fig. 5), an additional longitudinal channel 24 for accommodating a second spring-loaded spool 25 (Fig. 9), a groove 26 (Fig. 10) for accommodating the ball 20 of the clutch assembly and a recess 27 (Fig. 9) for fixing the drum 21, relative to the cylinder 14 (Fig. 9);
- spring-coded spring 28 coding pins 29 and 30 located in the main longitudinal channels 15 of the cylinder and in the main longitudinal channels 22 of the drum, are made in the length of two sizes, the size of which differs by the value of the diameter of the ball mounted above them. The installation order is determined by the embedded code;
- a shank 31 with a groove 32 (Fig. 10) in the annular protrusion to accommodate the spring-loaded rod 33 of the clutch assembly in the initial position of the lock and a curly drive disk 34 for connecting the shank with the actuator 2 (Fig. 1);
- a base 35 with a bore 36 perpendicular to the axis of the shank to accommodate the rod 33 and a recess 37 for fixing the drum relative to the base in the initial position of the lock by the second spool 25 (Fig. 9);
- a flange 38 (Fig. 3), covering and uniting the housing 8, the cylinder 14, the drum 22 and the base 35.

Actuator 2 includes:
- base 39 with an opening 40 for the shank 31, with two axles 41 symmetrically located relative to the hole 40 and two rectangular holes 42;
- locking elements - bolts made of three parts: bolt hook 43, bolt plate 44 and spring 45;
- a drive lever 46, mounted with the possibility of free rotation on the shank 31 and having at one end a rotating roller 47;
- spring-loaded locking lever 48, made in the form of an elongated plate mounted for rotation about the axis of one of the crossbars and having a roller 49 at the other end;
- thrust 50, made in the form of a figured plate, with two edges of which there are axis 51 of the drive bolts (Fig. 15);
- a cover 52 covering the details of the actuator and having an inner handle 53 outside and in the center and a forks fixedly mounted on the axis of the inner handle (Fig. 2).

 The castle uses the binary principle of encoding information on a key and in a secrecy mechanism. The coding of the key is carried out due to the presence or absence of a conical hole in the designated place. The secrecy mechanism is encoded by changing the arrangement of the fixing pins in the code channels: in one channel (conditional "0"), a longer fixing pin is located in the cylinder, and in the other (condition. "1") channel in the drum.

 The coding step (ie, the amount of movement of the coding elements in the transition from the conditional "0" to the conditional "1") is equal to the diameter of the balls 11 in the code channels 9.

 The castle operates as follows.

 Prior to entering the key, the code-receiving pins 10 with their conical peaks abut against the inner surface of the handle 6, which is rigidly connected to the housing 8, and the points of mutual contact of the coding pins lie either on the plane of the cylinder and the drum separation, or are separated from this plane deep into the cylinder by an amount equal to the coding step .

 Before the start of turning the outer handle 6, the position of the cylinder relative to the drum 21 and the position of the latter relative to the base 35 are fixed by the first and second spring-loaded spools 18 and 25, respectively, and the position of the shank 31 relative to the base is fixed by the rod 33 of the clutch assembly.

 After entering the key into the slot 7 of the handle 6, the pins 10 with a tapered top abut either on the lower surface of the key or on the inner surface of the handle 6, if there is a code hole in the key (Fig. 5-6), respectively, the ball located behind the pin 10 11, is either pushed with a pin into a part of the longitudinal channel 15 of the cylinder 14, or remains within the longitudinal channel 9 of the housing 8. This position is ensured both when working with one's own key and with another. The points of contact between the coding pins 29 and 30 in the main longitudinal channels 15 and 22 of the cylinder and the drum, respectively, if the key codes and the security mechanism code coincide, will lie on the plane of the cylinder and the drum, in case of mismatch of these codes, the mentioned touch points will not lie on dividing lines.

 When the handle 6 is rotated through an angle α determined by the first rotation limiter - the angle-setting groove 12 of the housing 8, the code longitudinal channels 9 of the housing 8 are shifted relative to the longitudinal channels 15 of the cylinder 14, and in the latter, the coding pins abut against one end of the housing or balls 11 locked in the longitudinal channel of the cylinder after rotation of the housing (Fig. 6), and the second end touch the spring-loaded pins 29 or 30 of the drum 21.

 In this case, as a result of the rotation of the housing 8 relative to the cylinder 14, the upper end of the first spool 18 is located opposite the recess 13 at the lower end of the housing 8 when working with both his own and another person's key (Fig. 9).

 With further rotation of the handle 6 in the case of working with a foreign key due to the fact that the contact points between the coding pins 29 and 30 lie outside the plane of separation of the cylinder 14 and the drum 21 (Fig. 8), the continuation of rotation is possible only together with the drum and this leads to pushing the spool rod 25 from the recess 37 of the base and closing the upper end of the spool rod 25 of the housing and the drum to each other. Further rotation of the handle 6 leads to the joint rotation (as a whole) of the body, cylinder and drum, without transmitting rotation to the shank 31, and therefore to the actuator.

 When working with your key after turning the housing by a predetermined angle due to the fact that the points of contact between the coding pins 29 and 30 lie on the plane of separation of the cylinder and the drum, with further rotation of the handle 6, the drum remains in place, held by the spool 25, and the cylinder 14 rotates relative to the drum 21, pushing the lower end of the spool 18 from the recess of the drum and fixing the upper end of the spool 18 housing 8 relative to the cylinder 14. In this case, the ball 20 of the clutch assembly, overcoming the resistance of the spring rod 33, joins from the recess 19 (Fig. 12) of the cylinder and takes a position being half the diameter in the groove 26 of the annular protrusion of the drum, and the second half the diameter in the groove 32 of the shank. After the rotation of the cylinder 14 relative to the drum 21, the rod 33 of the clutch assembly is completely recessed in the bore 36 of the base 35, and the ball 20 blocks the drum 21 and the shank 31 between them (Fig. 12).

 The next rotation of the handle occurs in conjunction with the drum, which leads to the expulsion of the spool rod 25 from the recess 37 of the base and the closure of the upper end of the spool rod 25 between each other 8 and the drum 21.

 As a result, a further rotation of the outer handle 6 and the body, cylinder, drum and shank connected to it leads to a rotation of the drive disk 34, which transmits rotation to the actuator 2.

 In the initial state of the actuator (Fig. 15) (open position), the rod 50 is in the extreme right position and is fixed in this position by the roller 47 of the drive lever 46 due to the fact that the spring of the roller 49 of the locking lever 48 presses the rod 50 to the side surface the drive disk 34. The drive lever 46 is in the extreme right (clockwise) position, determined by the emphasis of the roller 49 in the upper right edge of the curved notch of the rod 50. The inner handle 53 and the forks firmly connected to it are in the extreme right (by clockwise) position, their position being determined by the gripping actuating lever 46, while the figured disc 34 of the secrecy mechanism is in the “neutral” (zero) position corresponding to the “zero” position of the secrecy mechanism.

 When translating the actuator in the closed position, two versions of this process are possible.

Option one: the drive is carried out from the side of the secrecy mechanism by rotating the outer handle 6. After turning it to the angle, its further rotation leads to rotation of the shank 31 and the secrecy mechanism disk 34 associated therewith (counterclockwise). In this case, the disk 34 with its protrusion through the roller 47 drives the drive lever 46 and through the same roller, abutting against the lateral surface of the shaped groove of the rod 50 moves it to the left, which, in turn, causes the bolt hooks 43 to rotate, moving them from the state "open" to the "closed" position. The translation process terminates, transom when the hooks 43 abut against the edges of its cut-outs in the edges of grooves of rectangular base 42 and the clip 47 occupies the leftmost position, turned around at an angle of 90 ^o anticlockwise. In this position, the parts are locked under the action of the roller 49 of the spring-loaded locking lever 48. Upon completion of the locking, the privacy mechanism returns to the “zero” position by the user, and due to the configuration of the privacy mechanism disk 34, this rotation does not result in rotation or movement of other parts of the actuator.

 Unlocking the lock with the key from the outside is carried out in a similar way, with the only difference being that the secrecy mechanism is rotated in the opposite direction and all the details of the actuator from the "locked" position are transferred to the initial state.

 Option two: the drive is carried out from the side of the cover 52 by rotation of the inner handle 53. Since the handle axis is located along the axis of the shank 31, and the forks are uniquely associated with the drive lever 46 in terms of rotation, any rotation of the handle is equivalent to the same rotation of the drive lever and vice versa. Thus, to lock or unlock the lock with the internal handle, it is enough to turn it fully or counterclockwise, while the disk 34 of the secrecy mechanism is not affected by this rotation, freely passing along the side surface between the two protrusions of the roller 47 of the drive lever.

 In the "locked" position, the crossbars with their hook-shaped ends-hooks 43 go into the rectangular grooves 42 of the front wall 39 of the crossbar, covering its central part and thus preventing the lock from being squeezed from the crossbar.

 In order to protect the locking system of the lock from breaking by the method of forcefully unfastening the crossbars (between the lock and the crossbar), the crossbars are made up of 3 main parts: a crossbar hook 44 of the force plate with a groove-grip and a sliding groove for floating connection of the crossbar hook with a supporting bolt plate, a bolt plate 44, having holes for landing on the axis of the bolts 41 and for connecting to the axis of the rod 50 and two grooves for the passage of pins 54 of the bolt hook, which provide complete assembly of the details of the bolt with the shear and the spring 45, providing a mutual initial position of the plate 44 and the hook 43 in the absence of external shear forces. To provide support for the hook 43 of the bolt in the event of an attempt to unclench and transfer the releasing force to the power set of the lock, there is a platform on the rear side surface of the hook of the bolt in the locked state of the lock, located at the level of the front plate of the base of the lock, and the rectangular grooves under the bolts in this the plate is dimensioned such that they allow the hooks of the crossbars to be parallel to the front plate at a distance "d" of each, guaranteeing a reliable stop of the crossbar hooks 43 and stopping their further release (Figs. 15-17).

Claims (2)

 1. A lock comprising an actuator and a secrecy mechanism, comprising a housing rotatably mounted, a cylinder with a protrusion, a base, a shank, at least two main longitudinal channels in the housing and cylinder and placed in each of them with the possibility of interaction with each other in the initial position of the code-receiving pin and two coding spring-loaded pins, characterized in that it is equipped with coding balls installed in the longitudinal channels of the housing above the coding pins, installed with the possibility rotation between the cylinder and the shank of the drum, two spring-loaded spools and a clutch assembly made in the form of a ball and installed with the possibility of interacting with it in the initial position of the spring rod, the housing is made with an angular groove, a recess on the end surface from the cylinder side and a recess from the drum side , the cylinder is made with a recess on the end surface from the side of the drum and with an additional longitudinal channel, the drum is made with two main longitudinal channels, add With a longitudinal channel, a groove and a recess on the end surface on the cylinder side, the shank is made with a groove, and a base with a bore on the end surface on the shank side and a recess on the side of the drum, the coding pins are made in two sizes, the size of which differs by the value of the diameter of the ball set above them, the first spring-loaded spool is installed in an additional longitudinal channel of the cylinder with the possibility of alternately placing the ends of its rod in the recesses of the housing and the drum, the second back the spool is installed in an additional longitudinal channel of the drum with the possibility of alternately placing the ends of its rod in the recesses of the housing and the base, the ball of the clutch assembly is located in the groove of the drum with the possibility of alternately placing half its diameter, respectively, in the recess of the cylinder or in the groove of the shank, and the clutch assembly rod is installed in a bore of the base, made perpendicular to the axis of the shank and the groove of the latter in the initial position of the castle.  2. The lock according to claim 1, characterized in that the actuator comprises a base with two rectangular holes and with an opening for accommodating the shank of the secrecy mechanism, a drive lever with a rotating roller at the end, a spring-loaded locking lever with a roller, figured link and two crossbars, each of which consists of interconnected with the possibility of longitudinal movement of the spring plate and the bolt hook, the latter being located in rectangular holes of the base with the possibility of rotation and kinematically connected by a curly thrust, and the drive and fixing levers are mounted respectively on the shank of the secrecy mechanism and the axis of one of the crossbar plates with the possibility of rotation and interaction of their rollers with the curly disc of the secrecy mechanism.

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