RU2043475C1 - Combination lock - Google Patents

Abstract

FIELD: safe locking. SUBSTANCE: lock has code mechanism, body, pivot with a set of code disks installed on it, knob, fastener, blocking mechanism and control aid. The disks have slots on their surface for blocking mean in the form of a ball. The body in code mechanism is immovable, and may be oriented in vertical direction. Internal surface of the body is conical and provided with grooves located diametrically in vertical surface along cone generatrix. One slot is used as guide, and the other as return one. The grooves are connected to blocking mean being controlled by the knob installed in the above body. Fitting diameter of the knob has six positioned ball-type stopper and shaped pocket with lengthwise slot. Hexahedral axle with conical code disks with traps in the form of close slots installed. The slots and divided disks are alternative. The disks has passes in the form of open slots for blocking mean. The last disk is made in the form of drive semi-sleeve clamping disks on hexahedral axle with a clamping device. A driven semi-sleeve is coaxial to drive semi-sleeve. The driven one has two-positioned ball-type stopper. The sleeve through carrier member is linked to the cam of blocking mechanism to block lock fastener. Both semi- sleeves are interconnected through common cross slot and blocking mean. The lock is provided with a protective mechanism, which generates noise. Protective mechanism generating noise is made in the form of blind openings. The openings are of radial and directed at different angles, for example four openings directed at 130 60 110 60 degrees. Code mechanism has a mechanism for protection against discovering. The mechanism is located on vertical plane. Annular groove is made on back body end. This groove is communicated to return groove. Through opening is made in the area of guide groove. The opening is parallel to body axis and is connected to annular groove. Shaped pocket of the code mechanism has left and right cross slots and a cap. One can reinstall the cap into one cross slot. EFFECT: high reliability. 4 cl, 7 dwg

Description

 The invention relates to hardware, in particular to a lock with a code system, which can be used to lock safes, as well as other facilities in the room.

 A known lock with a code system comprising a housing with a cover in which the dials and the locking disk are located with code grooves on the outer cylindrical surfaces and additional internal code grooves, and the dials have cylindrical pockets on the inner surface and are fixed in the housing from turning by pins included into the outer code slots. The locking disk is connected by pins directly to the valve, made in the form of a ring with a locking element, and mounted on a clip in the slot, the locking disk being mounted to rotate when interacting with a locking device made in the form of flags pivotally mounted on the flanges of the drive drum in the slots and constantly torsion springs, trying to turn the flags and set in a position parallel to the axis of the lock, which is prevented by spring-loaded ball retainers, and the drive drum equipped with longitudinal grooves and annular grooves intersecting with them on the outer surface for fixing the working positions of the castle.

 The lock is unlocked by a sequential set of code ciphers at each step by turning the drive drum in any direction with setting to the code position on the scale on the case and shifting it in the axial direction by one step of the step, while the flags of the locking device pass through additional internal code slots of the corresponding disk and fall into the pocket, and the drive drum is fixed by an annular groove in an intermediate position. The number of steps is determined by the number of code disks, including typesetting and locking disks. At the last stage, the flags of the locking device occupy their position in the code grooves of the locking disk, and to unlock the lock, it is enough to turn the drum a half turn in the right direction. If at any step the code is chosen incorrectly, then with the axial displacement of the drum, the flags of the locking device with the next code disk will be knocked down and overturned. In this case, the drum must be returned to its original position, then the flags will rest on the back cover of the lock and cocked again on the locks, while to unlock the lock, the code dialing procedure must be repeated again. The code is changed by partially disassembling the lock with removing the cover by reinstalling the dials relative to the locking pins on the case, while the locking disk is not subject to code change.

The main disadvantage of this castle is its low secrecy. The number of code combinations is determined by just two typesetting disks, each of which is equipped with 24 code slots. Therefore, the number of permutation options will be equal to 24 ² -5 '.

 Another disadvantage should be the presence of the possibility of unauthorized entry into the protective object, bypassing the code set, i.e. by mechanical damage, for example, by drilling a hole in the valve zone and its forced displacement, since it is not blocked by anything.

 Another disadvantage is the lack of a security system for the lock from declassifying the code by listening, for example, using a stethoscope.

 A secret lock is also known, containing a cylindrical body in which an axis is mounted with a set of code disks, moreover, these disks are seated on the axis freely, but are fixed in the axial direction by spring-loaded balls in the radial holes of the axis with the possibility of rotation around the axis and cannot be displaced relative to each other. A recess in the form of a transverse groove is made on the outer surface of each disk. Each of the disks is also provided with axial holes and a pin located in one of the axial holes for interaction with a similar pin of an adjacent disk. The axis is fixed in the housing by a screw and connected to the valve by means of a finger, its other end is freely set into the disk, rigidly connected with the handle. A scale is made on the front end of the case. The housing is provided with radial holes in which the locking means in the form of balls is placed, and is mounted with the possibility of rotation in a cylindrical glass, on the inner surface of which a longitudinal groove is made to accommodate the locking means.

 The lock is unlocked by a set of code, the number of steps of which is determined by the number of code disks, including the extreme disk, rigidly connected to the handle. The code is set by successive rotations of the handle in clockwise and counterclockwise directions with preliminary idle scrolling of the handle full turns in the corresponding direction, first by a number equal to the number of code steps, and then performing a working turn of the handle in the same direction with its setting in the code position on a scale. The code is entered in the subsequent steps in the same order, but with a decrease in the number of full idle revolutions per unit and a mandatory working turn of the handle in the same direction with setting in the code position on the scale, provided that the direction of its rotation at each step is alternated clockwise and counterclockwise . At the slightest inaccurate installation of the handle on at least one digit of the code, the dialed digit is knocked down and the entire code dialing procedure must be started again. After dialing the code, the cylindrical body is rotated, while the locking balls pop out of the longitudinal groove of the cylindrical cup and enter the outer recesses of the disks mounted opposite them, and thereby do not interfere with the rotation of the cylindrical body, with which the axis that rotates the valve installed on the finger. The lock is unlocked. The code is also changed by partially disassembling the lock and changing the location of the code disks on the axis or pins in the holes on the disks.

 We take the famous secret castle as a prototype.

The prototype has the following disadvantages:
low secrecy and unreliability of the design, including the possibility of unauthorized entry into the protective object and the lack of a security system from declassifying the code by listening;
the number of code combinations for the prototype is determined by three code disks, each of which has 10 axial holes evenly spaced on the pitch circle under one code pin, and the extreme disk, rigidly connected to the handle, also has a code pin, but it cannot be rearranged according to the description. Therefore, the number of permutation options will be 10 ³ = 1000. An increase in code combinations due to an increase in the number of code disks on the same axis is practically not possible for reasons of compact design;
unauthorized entry into the protective object by mechanical damage is possible by drilling holes along the longitudinal groove and thus turning off the locking device, or by drilling along the axis and the disk forming at the junction, which is rigidly connected to the handle. In the latter case, the axis is articulated with the disk by a drill, as a tangential pin, and the control action on the valve comes from a handle rigidly connected to the disk, bypassing the locking device;
and, finally, in the prototype, no system for protecting against declassification of the code by the listening method is structurally provided.

 Thus, in the prototype it is impossible to achieve a technical result of increasing the secrecy and reliability of the castle design.

 The technical result of the invention consists in creating a device of increased secrecy of the labyrinth type, as well as a protective mechanism from listening, as a blocking means a metal ball with a diameter of 2.5-4 mm is used, wandering through a labyrinth composed of a set of code combinations of passages and traps on cone and dividing discs assembled together with the leading coupling half on the common hexagonal axis, rigidly connected to the cylindrical handle with the possibility of its discrete rotation in one or the other the other side and fixing in each of the six positions indicated by a reading scale for dialing the code, and on its landing in the case diameter made a combination of four blind holes located radially at different angles one relative to the other, in which four balls are laid, the same size as a ball of a blocking agent. When the handle rotates, the balls in the blind holes roll over and alternately hit the bottom of the hole, producing false noise signals that make it difficult to listen to the movement along the maze of the ball of the blocking means. A driven half-coupling is located coaxially with the leading half-coupling of the labyrinth code mechanism, which is connected by a lead element to the locking cam. A joint groove is made between the half-couplings, in which, with the correct code, the ball of the locking means enters, forming a clutch from two half-couplings to transmit a control action in the form of torque to the cam. In this case, the locking mechanism released from blocking can be opened and closed by moving the bolt from the individual steering wheel, for example, through a rocker mechanism in the form of a flywheel with a finger entering the transverse groove of the bolt.

The compact design of the labyrinth code mechanism makes it possible to arrange four pairs of code disks and a leading coupling half with six code combinations on a common hexagonal axis, and taking into account two permutations, one relative to the other of each of the four pairs of disks to change the sign in the direction of rotation of the labyrinth code mechanism when entering the code, the total the number of code combinations will be determined by the product: 6 ^{(4 + 1)} x2 ⁴ = 124416. Given the possibility of rearranging the stub in the curly pocket of the initial position ball of the locking means on the right or left pocket shape, allowing you to change the sign in the direction of rotation of the labyrinth code mechanism when dialing the first code digit, the number of code combinations can be doubled to the value of 248832 variants. This is the degree of secrecy of the proposed castle.

The problem of protecting the lock from unauthorized opening by mechanical damage, since any drilling can only disable its control mechanism, but access to the lock will not be achieved. The protective mechanism of false noise is located on the handle and is made in the form of blind holes radially located on the landing diameter at different angles one relative to another, for example from 60 to 130 ^about .

 The lock is also protected from declassification when the axis of the coding mechanism is vertically arranged, in this case an annular groove is made at the rear end of its housing, which is connected by an opening to the return groove, and a through hole is made in the area of the guide groove parallel to the housing axis and exits into the annular groove.

Distinctive features of the present invention is that the housing of the code mechanism is made stationary with the possibility of arrangement in a vertical plane, the inner surface of which is conical and provided with grooves diametrically located along the generatrix of the cone, one of which is a guide and the other return associated with locking means controlled by the handle installed in the housing, on the landing diameter of which a curly pocket and a six-position ball retainer are made, and not a hexagonal axis is fixed on which conical-shaped code disks are installed with traps in the form of closed grooves alternating with dividing disks having openings in the form of open grooves for the locking means, the last disk being made in the form of a leading coupling half, tightening the disks on the hexagonal axis with clamping means, and coaxially with the leading one, a driven coupling half with a two-position ball lock is connected in the housing, connected by a pulling element with a cam blocking the lock bolt, both half fty interconnected through a joint transverse groove and locking means. The lock is equipped with a protective mechanism for generating false noise, which is located on the handle and is made in the form of blind holes radially spaced at different angles from one another, for example, four holes at angles of 130-60-110-60 ^about . When the axis of the code mechanism is vertically located in the lock, a declassification protection mechanism is provided in which an annular groove is made at the rear end of the lock case, which is connected by an opening to the return groove, and a through hole is made in the guide groove area parallel to the case axis and into the ring groove. The figured pocket of the code mechanism contains both left and right transverse grooves and a plug with the possibility of reinstalling it in one of the transverse grooves.

 A search conducted on patent technical literature indicates that no solutions to the same problem are known that are close in their technical essence to the proposed solution. The absence of such information on the labyrinth type locks indicates that the proposed solution meets the criterion of "novelty."

 The proposed technical solution has a creative level, since the distinguishing features, as such, are unknown and cannot be inferred from the prior art.

 Figure 1 shows a secret lock, a longitudinal section; figure 2 cross section aa in figure 1; figure 3 and 4 view along arrow E in figure 2 (figure 4 shows an embodiment of a figured pocket with two transverse grooves and a plug); in Fig.5 cross section bB in Fig.1; in Fig.6 cross section bb in Fig.1; in Fig.7 cross section GG in Fig.1.

 A secret lock contains a code mechanism, a locking mechanism, a locking mechanism, a protective mechanism for generating false noise, a security mechanism for declassification with a vertical arrangement of the code mechanism, and locking means in the form of a ball 1 wandering through the labyrinth of the code mechanism and being a link between the code and blocking mechanisms.

 The code mechanism consists of a casing 2 with two symmetrical flats 3 for the possibility of arranging the casing 2 in a vertical plane, in which there are six holes 4, evenly spaced on the inner diameter of the front part, two holes 5, diametrically located on the inner diameter of the back part, guide groove 6 along the upper generatrix and the return groove 7 along the lower generatrix of the conical socket of the housing 2, in which the code mechanism is located, containing conical disks 8 provided with closed grooves 9 forming a trap ki, spacer discs 10, provided with open grooves 11 forming the passages, and a driving coupling half 12, provided with a transverse half-groove 13, which are assembled on the hexagonal axis 14, mounted on the handle 15, and axially fixed with a screw 16. On the landing diameter of the handle 15 is applied a scale with marks and numbers for six positions, coordinated with the latch 17 and the holes 4 on the housing 2. The figured pocket 18 can be made with the left and right transverse groove 19 at the same time, then it contains a plug 45, reinstalled in one of the pope echnyh grooves 19. Coded mechanism in the housing 2 is protected against the penetration of a nut 20 which proshtiftovana together with the housing 2 on the mating end face of the mounting screw 21.

The locking mechanism is located in the housing 22, rigidly connected with the housing 2 of the code mechanism, and includes a cam 23 made in the form of a cylindrical washer with a flat 24, a driven coupling half 25 with two diametrically arranged transverse half-grooves 26 and a two-position ball retainer 27, as well as a carrier a pin 28 as a drive element between the cam 23 and the coupling half 25. The housings 2 and 22 are aligned and interconnected by a threaded connection and locking screws. On the housing 22 there is a cylindrical socket for the shank of the driven coupling half 25, a cylindrical belt for the movable landing of the cam 23, a transverse groove 29 to limit the angle of rotation of the tow pin 28, and with it the cam 23 and the coupling half 25 within 180 ^° and a threaded shank 30, providing mounting the mask of the locking and code mechanisms through the cap nut 31 from the inside of the protective object in the form of a safe.

 The locking mechanism is made in the housing 32 with the valve 33 and includes standard controls, for example, in the form of a steering wheel 34, a flywheel 35 with a finger 36 entering the transverse groove 37 of the valve 33, the flywheel 35 being mounted and studded on the through axis 38 connected with the helm 34, and on the valve 33 made at least one radius hole 39 for locking the locking mechanism of the cam 23.

The protective mechanism for generating false noise is made in the form of four holes 40 on the outer diameter of the handle 15, which enters the landing hole of the housing 2, into which additional balls 41, similar to ball 1, are freely inserted, and the axes of the holes 40 are not evenly spaced relative to the other, but at angles from 60 to 130 ^about , as shown in figure 2, which provides their alternate bounce during rotation of the handle 15, which generates a false noise signal, confusing listening to the operation of the ball 1.

 The secret lock also includes a security mechanism for declassification when the axis of the code mechanism is vertical, when small safes with the ability to tilt are used. In this case, ball 1, as a locking means, under the influence of its own weight, bypassing the passages and traps on the labyrinth disks, can slip along the guide or return groove into the area of the coupling halves and fall into the joint groove, which leads to the inevitable opening of the lock without any code set.

 The declassification protection mechanism consists of an annular groove 42 made at the junction of the housings 2 and 22, a through hole 43 made in the housing 2 parallel to the axis of the code mechanism in the area of the guide groove 6 with an exit to the annular groove 42, and an opening 44 connecting the return groove 7 with annular groove 42.

 Secret lock works as follows. To unlock the lock, use a code table with signs and numbers, which dial the code by turning the handle 15 in the direction specified by the “+” sign clockwise or “-” counterclockwise, and stopping on a number that is on the same line with this sign. The positions are counted relative to the vertical mark on the front of the nut 20 on a scale marked with six position marks and numbers on the handle 15. Each of the six positions of the handle 15 is fixed with a six-position ball retainer 17 that fits into one of the holes 4 on the housing 2.

 Before entering the code, it is recommended to perform preparatory 4-5 full turns of the handle 15, and when re-entering the code, it is enough to make one preparatory turn in the direction of the sign of the first digit of the code with a stop at this digit. This procedure is necessary for the guaranteed exit of the ball 1 to its original position and getting it into the figured pocket 18, which is facilitated by the transverse groove 19, which can be either left or right, defining the corresponding sign of the first digit of the code that sets the figured pocket 18 together with the ball 1 to the lower position, combined with the return groove 7, and the ball 1 at this moment should be in the transverse groove 19. The second digit of the code brings the ball 1 to the starting position, i.e. on the line of the guide groove 6, along which it should roll out of the pocket 18 and get on the conical disk 8, and for this the approach to the second digit is carried out in the direction opposite to the first digit of the code, then the ball 1 is transported upward in the curly pocket 18 rolls out of the transverse groove 19 and occupies the starting position in pocket 18. Therefore, the sign at the second digit of the code is reversed, and the second digit itself is also uniquely identified and is diametrical with respect to the first. Thus, for each execution of the combination lock, the first and second digits of the code together with the characters are constant. However, the figured pocket 18 can have an alternating design, that is, two transverse grooves 19 can be structurally made: right and left simultaneously, one of which is excluded from operation by a resettable plug, then the first two digits of the code will be alternately respectively. The third and subsequent digits of the code ensures the passage of the ball 1 through the passages 11 in the spacer discs 10, and each spacer disc 10 and the passage 11 therein will correspond to its own digit of the code and its sign of the direction of rotation of the handle 15, which is determined by the position of the trap 9 on the conical disk 8 relative to passage 11 on the corresponding partition disk 10. Any error in the sign or number of the code at this stage of the code set leads to the falling of ball 1 into the trap 9 on the conical disks 8, from which it can only be returned tnuyu groove 7 by the preparatory rotation of the handle 15 one full turn and return to the original position, and then all of the code should be dialed again. The design of the lock is made in such a way that the ball when leaving the curly pocket 18 on the conical disks 8 is held in a vertical position by the guide groove 6 until it reaches the final position with the correct code. This is achieved by the fact that the guide groove 6 is calibrated in depth and radius of the ball 1, and the return groove 7 is made deeper with more free dimensions and meets the requirement of free, unobstructed rolling of the ball 1 to its original position under the action of its own weight. The last digit of the code code does not have a sign, since in this position the ball 1 finishes on the conical disk made integrally with the leading coupling half 12 without any trap except passage to the transverse half-groove 13, which the last code digit provides for it, as a result of which the coupling coupling 12 is engaged the code mechanism with the driven half-coupling 25 of the locking mechanism through the ball 1 falling into the jointly oriented transverse half-holes 13 and 26. In this position, the ball 1 can be handled by the handle 15 through the clutch 12-25 and the pivot pin 28 Turn the cam 23 half-turn within the transverse groove 29 on the housing 22 of the locking mechanism and unlock the latch 33 of the locking mechanism, removing the cam body 23 from the corresponding radius hole 39 and replacing it with the flange 24. Unlocking the unlocked lock is done by turning the steering wheel 34, which through the through axis 38, mounted in the housing 32 of the locking mechanism, rotates the flywheel 35 with the finger 36, which, interacting with the transverse groove 37, converts the rotational movement from the helm 34 into the translational movement of the rear izhki 33 in one direction or another. When turning the cam 23, the ball 1, moving from the upper position to the lower one, is jammed in the clutch and does not spontaneously reset, therefore, it is necessary to use the handle 15 to slightly shift the fixation position and return to the fixation position, while ball 1 will wedge in the clutch joint and drop out into the return groove 7, and the locking of the lock must be repeated by dialing the code to rotate the cap 23 in the opposite direction, with the obligatory dropping of the ball 1 in the same way into the return groove 7. In the case of vertical distribution When the casing mechanism is positioned, the ball 1, under the action of its own weight, from the initial position or the starting position necessarily enters through the through hole 43 or through the return groove 7 and the hole 44 into the annular groove 42, from where it can return through the hole 44 and the return groove 7 only when installing the coding mechanism housing in a horizontal position, and since the annular groove 42 is deliberately lower than the hole 44, rolling the ball out of the annular groove to its original position is necessary m additional short code mechanism tilt axis somewhat below the horizontal level, then return to the horizontal position.

 The lock code changes as follows. We screw the cap nut 31 from the threaded shank 30 and remove the guise of the code and locking mechanisms, loosen the mounting screw 21 and screw the nut 20, remove the handle 15 with the set of discs from the conical socket of the housing 2, while the balls 1 and 41 freely fall out, unscrew the screw 16 and remove the coupling half 12, and then all the disks 8 and 10 from the hexagonal axis 14. Choosing a new code, we take into account that the first two digits do not change, when you install the first, large conical disk 8 on axis 14, its trap in the form of a groove 9 is located on the right or left to bottom digit from the second digit of the code, which corresponds to the sign "+" or "-" for the third digit of the code, and this rule is true for all other conical discs 8, the separation discs 10 and the coupling half 12 are mounted on the axis 14 with the orientation of the passages 11 and the transverse a half-gap 13 opposite the corresponding digits of the new code, while the position of the passages 11 and traps 9 on both sides of each of the spacer discs 10 should not coincide. After installing the new code, it is necessary to install all the fasteners in the reverse order.

Claims (4)

 1. A SECRET LOCK, containing a code mechanism, having a housing with code disks installed inside it on the axis, on the surface of which grooves are made for spring-loaded locking balls, locking means in the form of a ball, handle, valve, characterized in that it further comprises a valve locking mechanism and a false noise generation mechanism located on the handle, while the valve locking mechanism has a housing coaxially located with the housing of the code mechanism and rigidly connected to the latter, installed internally and the housing driven half-coupling with a two-position retainer and a groove, a cam, a leash, and the code mechanism further comprises a six-position retainer, a figured pocket having a transverse groove, and dividing discs with an open groove, the housing mounted motionless with the possibility of its location in a vertical plane, and it the inner surface is conical and provided with diametrically opposite grooves along the generatrix located in a vertical plane, one of which is a guide and the other is returnable I, interacting with a locking means controlled by a handle installed in the housing, into which a hexagonal axis is mounted under the disks, each code disk being conical and having a trap for the locking means in the form of a closed groove and installed in alternating order with a separation disk having a passage in in the form of an open groove for the locking means, and the code disk, installed last from the handle, is made in the form of a leading coupling half with a groove mounted coaxially with the follower, moreover, coupling coupling through the grooves and the locking means, of which the leading is drawn to the disks by means of a fastening element, and the driven one is connected by means of a leash to the cam of the valve locking mechanism.  2. The lock according to claim 1, characterized in that the false noise generation mechanism is made on the handle in the form of blind and radial holes, the axes of which are located, for example, at an angle of 130 60 110 60, and the balls freely located in them.  3. The lock according to claim 1, characterized in that, in a vertical arrangement, the code mechanism comprises a declassification protection mechanism in which an annular groove is made at the rear end of the housing, connected through one hole to the return groove, and through another hole parallel to the housing axis, with guide groove.  4. The lock according to claim 1, characterized in that the figured pocket has a permutation plug in the transverse groove.

Images