RU2045652C1 - Mechanical combination lock - Google Patents

Abstract

FIELD: household appliances. SUBSTANCE: mechanical coding device of the lock comprises a body formed by front and rear walls with a locking strip therebetween. Said strip has holes interconnected by a through cutout. Installed in coaxial holes of the front cover, in the locking strip and the rear wall are shafts of coding members whose heads are positioned at the side of the front wall. Decoding members in the form of cylindrical bushes with transverse cutouts are installed on the shafts of coding members and pressed against them from the side of the rear wall. Internal surfaces of cylindrical bushes and the coding member shaft surfaces contacting therewith are cone-shaped. The locking strip and transverse cutouts are arranged in the same plane. The external surface of the rear wall has profiling springs whose ends are in contact with splines made on the ends of cylindrical bushes. EFFECT: improved design. 3 dwg

Description

 The invention relates to locking devices and can be used to lock doors, safes, etc.

 A device for opening a lock bolt is provided, comprising a connecting board interacting with a lock bolt and a handle associated with it, a digital encoder made in the form of spring-loaded buttons interacting with sliders, each of which has protrusions and enters the corresponding window of the locking strip, interacting with a spring-loaded latch, while the latches are located on one common element, turning them off by means of the reset button of the dialed cipher. The windows of the locking strip have a rectangular shape, and the digital encoder is made in the form of a group of plates, the lower curved part of each of which is located in the corresponding window of the locking strip.

 The known device has complex kinematics, which does not allow to make it flat and accordingly small.

 There is also known a lock with a mechanical code device, selected as a prototype, comprising a housing and a lock locking mechanism consisting of a decoding plate, a strap with buttons and coding pins, each of which is connected to a button, the strap has a deadbolt with a handle and a decoding plate made of several parts, each of which has a T-shaped cutout for code pins and is located on the case.

 However, the known device has large dimensions and a complex kinematic scheme. In addition, in the process of multiple code settings, the contact surfaces of the operation buttons are erased, as a result of which the lock can be decoded, since when the buttons are set to the operating position, a characteristic sound occurs.

 Since the number of positions of the encoding device is small, in this case it is three, the device has limited capabilities in terms of changing the code.

 The objective of the invention is to simplify the design and increase reliability.

 The essence of the invention lies in the fact that a mechanical combination lock containing a housing having a front and rear walls mounted inside the housing parallel to the walls of the locking strip interacting with the bolt, coding elements mounted on the strip, the heads of which are located outside the front wall of the housing, and decoding elements with slots, additionally contains leaf springs installed outside the rear wall of the housing, and a through slot in the locking strip, while the front and rear walls of the housing, as well as the locking strip has coaxial holes for the coding and decoding elements, each coding element is made in the form of a shaft, and each decoding element is in the form of a cylindrical sleeve having slots in contact with the ends of the leaf springs, mounted on the shaft of the coding element and the nut is preloaded, the shaft and the sleeve mated on a conical surface; the transverse slots of the decoding elements and the locking plate are located in the same plane, the through slot connects the holes of the locking strip and has a width the size of which is the difference between the diameter of the sleeve and the depth of its transverse slot.

 In FIG. 1 shows the design of a mechanical combination lock; in FIG. 2 is a view along arrow A in FIG. 1; in FIG. 3 section BB in FIG. 1.

 The mechanical combination lock contains a housing having a front and rear walls 1 and 2, mounted inside the housing parallel to the walls 1 and 2, a locking strip 3 with holes 4 interconnected through a slot 5, and holes 6 are made in the front and rear walls 1 and 2 of the housing and 7, coaxial with holes 4 in the locking strip 3, respectively; coding elements made in the form of shafts 8 with heads 9, on which divisions 10 are made; decoding elements in the form of cylindrical bushings 11 with transverse slots 12, which are planted respectively on the shafts 8 of the coding elements and mate with them on conical surfaces. The bushings 11 are pressed against the shafts 8 by nuts 13. To prevent the shafts 8 from moving relative to the housing during assembly, spacers 14 are installed. Plate springs 15 are fixed to the outer surface of the rear wall 2 of the housing, the ends of which contact with the splines 16 made on the cylindrical bushings 11.

 The number of springs 15 may be equal to the number of shafts 8 or half the number of shafts when they are even. In the latter case, each spring 15 interacts with an adjacent pair of shafts 8, as shown in FIG. 2. The front and rear walls 1 and 2 are connected by screws 17.

 Mechanical combination lock operates as follows.

 To open the lock, the shafts 8 together with the bushings 11 placed on them are installed in the positions corresponding to the code by rotating the heads 9. In this case, the cylindrical bushings 11 occupy such positions in which the transverse slots 12 are oriented parallel to the through slot 5 in the locking strip 3 (position " Open").

 Since the width of the through slot 5 is equal to the thickness of the cylindrical sleeve 11 in the region of the transverse slot 12, the locking bar 3 can freely move with the bolt.

 After closing the lock, the cipher is lost by turning the shafts 8 to an arbitrary position. In this case, the transverse slots 12 do not coincide with the direction of the through slot 5 in the locking strip 3, therefore, the position of the locking strip 3 relative to the housing is fixed and the lock cannot be opened.

 The leaf springs 15 mounted on the rear wall 2, the ends of which abut against the slots 16 of the respective shafts 8, allow the shafts 8 to rotate only in one direction, which ensures the same wear of all the splines 16. This, in turn, eliminates the possibility of selecting a cipher for a characteristic sound, for example, a click when turning the shaft 8 to the position corresponding to the code element or the interference of the locking strip 3 from the lock drive. The number of slots 16 on the shaft 8 corresponds to the number of divisions on the head 9 of the coding element or a multiple thereof. The number of divisions on the head 9 is selected depending on the required degree of secrecy and ease of use.

 To change the cipher, the coding elements are set to the "Open" position. To do this, unscrew the nuts 13 and by turning the shafts 8 relative to the cylindrical bushings 11 set a new code. Then again tighten the bushings 11 with the nuts 13 to the shafts 8. The coupling of the shafts 8 with the bushings 11 on the conical surface and the pressing with the nuts 13 prevents them from turning after setting the code.

 The number of coding elements and their positions can be selected arbitrarily depending on the required degree of secrecy and dimensions of the lock. Moreover, even with a minimum number of coding elements equal to three, the degree of secrecy of the lock can be significantly higher compared to the prototype.

Claims (1)

 MECHANICAL CODE LOCK, comprising a housing having front and rear walls mounted inside the housing parallel to the walls, a locking strip interacting with a bolt, coding elements mounted on the strip, the heads of which are located outside the front wall of the housing, decoding elements with slots, characterized in that it additionally contains leaf springs installed outside the rear wall of the housing, and a through slot in the locking strip, while the front and rear walls of the housing, as well as the locking strip have there are coaxial holes for the coding and decoding elements, each coding element is made in the form of a shaft, and each decoding element is in the form of a cylindrical sleeve having slots in contact with the ends of the leaf springs, mounted on the shaft of the coding element and a preloaded nut, the shaft and the sleeve being mated in the conical surface, the transverse slots of the decoding elements and the locking strip are located in the same plane, the through slot connects the holes of the locking strip and has a width the size of which is the diameter of the sleeve and the depth of its transverse slot.