CN201649878U - Lock head with password dial - Google Patents

Abstract

The utility model discloses a lock head with a password dial, which comprises a lock cylinder, a lock cylinder sleeve, a lock head shell, a first cup-shaped rotating wheel and the like. A first bolt sliding groove, a first bolt matched with the first bolt sliding groove and a key groove matched with the first bolt are arranged in the lock cylinder. The lock cylinder sleeve is arranged on the external side of the lock cylinder. A second bolt sliding groove and a second bolt are arranged in the lock cylinder sleeve. The lock head shell is arranged on the external side of the lock cylinder sleeve. A third bolt sliding groove, a second bolt and a spring are arranged in the lock head shell. A dialing point is arranged on the external side of the lock cylinder at the end of the lock cylinder sleeve. The lock head is characterized in that the first cup-shaped rotating wheel is arranged on one side of the dialing point, a first guide groove is arranged on the end surface of the cup mouth of the first cup-shaped rotating wheel, and a first force bearing point which can be acted by the dialing point is arranged on the first cup-shaped rotating wheel. On the basis that the lock cylinder can rotate idly, the password dialing function is added, thereby effectively preventing a key from being imitated secretly and preventing a tool from being illegally inserted into the key groove. The lock head can also be used with an electric-control lock or another horizontal moving lock and can be used as the dial and the door opening handle of another lock.

Description

A kind of tapered end that has the password dial

Technical field

The present invention relates to a kind of tapered end of field of lockset, that is: a kind of tapered end that has the password dial.

Background technology

Rotate in the lockset of unblanking at the existing lock core cover that adopts, after key and pellet shot from a slingshot process customized configuration, the lock core idle running more has a class lockset to insert rear lock core in non-valid key and also can dally, have only after the correct insertion of valid key, the lock core cover rotates together with lock core to be realized unblanking.

As depicted in figs. 1 and 2, Fig. 1 and Fig. 2 are the longitudinal sectional views of existing common cylindricality billiards structure tapered end.In Fig. 1, when no key or foreign matter insertion key 63, no any pellet shot from a slingshot between lock core cover 7 and the lock core 6 has the 3rd pellet shot from a slingshot 92 to block between lock core cover 7 and the tapered end shell 9, lock core 6 idle runnings; In Fig. 2, after valid key is correctly inserted key 63, there is first pellet shot from a slingshot 62 to block between lock core 6 and the lock core cover 7, non-marble blocks between lock core cover 7 and the tapered end shell 9, and lock core cover 7 can be realized directly or indirectly unblanking together with lock core 6 rotations.

Fig. 3, Fig. 4 and shown in Figure 5 for another example, Fig. 3 also is a kind of locking states cross sectional representation of prior art tapered end, and Fig. 4 is the unlocking condition cross sectional representation of tapered end shown in Figure 3, and Fig. 5 is an A-A sectional view among Fig. 4; Fig. 3, Fig. 4 and Fig. 5 belong to the patent No.: 02205727.7, and the technology in the patent name " opening and closing device of lock ", its billiards structure is known as the billiards structure of side column type or blade type.In Fig. 3, when no valid key or foreign matter insert or valid key when correctly not inserting key 63, in profile is under the outer rim effect of arc sheet first pellet shot from a slingshot 62, second pellet shot from a slingshot 72 that is used for locking is positioned at the 3rd pellet shot from a slingshot chute 91 of tapered end shell 9 and the second pellet shot from a slingshot chute 71 of lock core cover 7, contain that non-marble blocks between the lock core 6 of lining 60 and the lock core cover 7, contain lock core 6 idle runnings of lining 60; As shown in Figure 4 and Figure 5, after valid key 12 is inserted key 63 fully, second pellet shot from a slingshot 72 falls into the groove 621 and the second pellet shot from a slingshot chute 71 of arc sheet first pellet shot from a slingshot 62, containing between the lock core 6 of lining 60 and the lock core cover 7 has second pellet shot from a slingshot 72 to block, non-marble blocks between lock core cover 7 and the tapered end shell 9, lock core cover 7 can be realized directly or indirectly unblanking together with lock core 6 rotations at this moment.

In similar above-mentioned prior art, although tapered end has anti-theft feature preferably,,, join or the key of identical profile of tooth also can be realized unblanking after inserting by chance in that key is stolen, stolen because tapered end does not have cryptographic function; Owing to be easy to contact with unlocking tool by the pellet shot from a slingshot of key effect, therefore, the tapered end of similar above-mentioned technology is also easily by technical opening.The tapered end of similar above-mentioned prior art can not be united use with other translation lockset, serves as the dial of another one translation lockset and the handle that opens the door.

Summary of the invention

The objective of the invention is to overcome above-mentioned shortcoming, a kind of tapered end that has the password dial is provided, rotate on the tapered end technical foundation of unblanking at the existing lock core cover that adopts, increased the password dial feature, have only when password and dial when entirely true, the key that key can correctly insert in the tapered end realizes unblanking.The present invention can prevent effectively that bitting steathily or technical opening instrument from illegally inserting key, improved the safety in utilization of former tapered end.Product of the present invention in addition also can be united use with other translation lockset or automatically controlled class lockset, can be used for serving as the dial of another one translation lockset and the handle that opens the door.

For achieving the above object, a kind of technical scheme that has the tapered end of password dial of the present invention is: comprise lock core, the lock core cover, the tapered end shell, the first cup-shaped runner, the first pellet shot from a slingshot chute is arranged in the lock core, first pellet shot from a slingshot that matches is arranged in the first pellet shot from a slingshot chute, also has key in the lock core with the first pellet shot from a slingshot chute and first pellet shot from a slingshot coupling, there is the lock core cover in the first pellet shot from a slingshot chute outside at lock core, the second pellet shot from a slingshot chute that corresponding coupling with the lock core first pellet shot from a slingshot chute is arranged in the lock core cover, second pellet shot from a slingshot that matches is arranged in the second pellet shot from a slingshot chute, there is the tapered end shell in the outside at the lock core cover, the 3rd pellet shot from a slingshot chute that overlaps the corresponding coupling of the second pellet shot from a slingshot chute with lock core is arranged in the tapered end shell, the 3rd pellet shot from a slingshot and the marble spring that matches arranged in the 3rd pellet shot from a slingshot chute, be provided with in the outside of lock core cover and unblank a little, the outside of overlapping an end lock core at lock core is provided with pulling point, it is characterized in that: the outside at the lock core of pulling point one side is provided with the first cup-shaped runner, on the rim of a cup end face of the first cup-shaped runner first guide groove is arranged, on the first cup-shaped runner, also be provided with first stress point corresponding with pulling point.

The first pellet shot from a slingshot chute of described lock core is cylindrical, and communicate with key, first pellet shot from a slingshot in the first pellet shot from a slingshot chute is the cylindricality pellet shot from a slingshot, the second pellet shot from a slingshot chute of described lock core cover is cylindrical, second pellet shot from a slingshot in the second pellet shot from a slingshot chute is the cylindricality pellet shot from a slingshot, the 3rd pellet shot from a slingshot chute of described tapered end shell is cylindrical, and the 3rd pellet shot from a slingshot in the 3rd pellet shot from a slingshot chute is the cylindricality pellet shot from a slingshot.

The first pellet shot from a slingshot chute of described lock core is cylindrical, first pellet shot from a slingshot in the first pellet shot from a slingshot chute is the pellet shot from a slingshot that contains magnetic pole, key can communicate with the first pellet shot from a slingshot chute or be obstructed, the second pellet shot from a slingshot chute of described lock core cover is cylindrical, the cross section of the second pellet shot from a slingshot chute is less than the cross section of first pellet shot from a slingshot, second pellet shot from a slingshot in the second pellet shot from a slingshot chute is the cylindricality pellet shot from a slingshot, and the 3rd pellet shot from a slingshot chute of described tapered end shell is cylindrical, and the 3rd pellet shot from a slingshot in the 3rd pellet shot from a slingshot chute is the cylindricality pellet shot from a slingshot.

The first pellet shot from a slingshot chute of described lock core is the annular pellet shot from a slingshot chute perpendicular to the lock core axis, first pellet shot from a slingshot in the first pellet shot from a slingshot chute is the pellet shot from a slingshot of a pair of arc sheet, should be to being provided with stage clip between adjacent two end faces of first pellet shot from a slingshot, should leave certain clearance between two other end face to first pellet shot from a slingshot, on every pair first pellet shot from a slingshot, be provided with groove, the first pellet shot from a slingshot chute outside at lock core is provided with lining, on lining and lock core, also be provided with the chute that communicates with the first pellet shot from a slingshot chute, described lock core is set in the outside of village's cover, the second pellet shot from a slingshot chute that corresponding coupling with chute is arranged in the lock core cover, described second pellet shot from a slingshot can place the chute and the second pellet shot from a slingshot chute, the 3rd pellet shot from a slingshot chute of described tapered end shell inboard and the corresponding coupling in the second pellet shot from a slingshot outer end.

The described first cup-shaped runner is installed in the cylinder periphery of lock core, is provided with first round endoporus at the cup end of the first cup-shaped runner, and the first round endoporus of the first cup-shaped runner is enclosed on the lock core cylinder cylinder periphery; The perhaps described first cup-shaped runner is installed in the cylinder periphery of lock core, the cup end of the first cup-shaped runner, be provided with first round endoporus, be provided with in first round endoporus in first runner that contains the first cover endoporus and overlap, first of the cover cover endoporus is enclosed on the cylinder periphery of lock core in first runner.

Overlap being provided with in second runner with a side chain core at the bottom of the non-homonymy first cup-shaped runner cup of first stress point outside, the cover outside is provided with the second cup-shaped runner in second runner, the second cup-shaped runner is identical with the rim of a cup direction of the first cup-shaped runner, on the rim of a cup end face of the second cup-shaped runner second guide groove is arranged, be provided with second stress point in second cup-shaped runner one side adjacent with the first cup-shaped runner, be provided with the power transmission point in first cup-shaped runner one side corresponding with second stress point, cover can be by riveting in second runner, weldering or fixture and tapered end shell or with the door body or constitute the shell of this product or coupled parts are fixedly connected.

The described first cup-shaped runner is installed in the end face outside of lock core, the cup end at the first cup-shaped runner is provided with first round endoporus, in first round endoporus, be provided with in first runner and overlap, cover is installed in the end face outside of lock core in first runner, and cover can be with the tapered end shell or with the door body or constitute the shell of this product or coupled parts are fixedly connected in first runner; The perhaps described first cup-shaped runner is installed in the end face outside of lock core, is provided with rotating shaft at the cup end of the first cup-shaped runner, and rotating shaft can be fixedly connected with the end face of lock core, also can or constitute the shell of this product or coupled parts are fixedly connected with the door body.

One end face of the more close lock core cover in the outside of the inboard at the bottom of described first cup-shaped its glass of runner at the bottom of than its glass, one end face of the more close lock core cover in the outside of the inboard at the bottom of described second cup-shaped its glass of runner at the bottom of than its glass, in the plug keyway relative, be provided with the key guide rod with the first cup-shaped runner or the second cup-shaped runner inboard, lock core cylinder periphery between key guide rod and the first cup-shaped runner or the second cup-shaped runner inboard is provided with sliding hurdle, on sliding hurdle, be connected with guide rod, on guide rod, be connected with an end of location guide, the other end of location guide is arranged in locating channel, is provided with spring between glass end of sliding hurdle and the first cup-shaped runner or the second cup-shaped runner.

The present invention is simple and reasonable, and applied range is easy to use.The present invention can also unite use with other lockset except having independently locking and open function, make its anti-theft feature stronger, can be widely used in security door, safety cabinet, vehicle, container etc.

Description of drawings:

Fig. 1 is a kind of prior art tapered end of the present invention longitudinal section schematic diagram when locking that can be used for.

Fig. 2 is that tapered end shown in Figure 1 is at opening longitudinal section schematic diagram.

Fig. 3 also is a kind of prior art tapered end of the present invention cross sectional representation when locking that can be used for.

Fig. 4 is that tapered end shown in Figure 3 is in the opening cross sectional representation.

Fig. 5 is that A-A analyses and observe among Fig. 4.

Fig. 6 is an embodiment of the present invention longitudinal section schematic diagram when locking.

Fig. 7 is the left view of a kind of cup-shaped rotaring wheel structure among Fig. 6.

Fig. 8 is a kind of connected mode schematic diagram of key and guide rod among the present invention.

Fig. 9 is the another kind of connected mode schematic diagram of key and guide rod among the present invention.

Figure 10 is another embodiment of the present invention longitudinal section schematic diagram when locking.

Figure 11 is the another kind of again embodiment of the present invention longitudinal section schematic diagram when locking.

Figure 12 is the another kind of again embodiment of the present invention longitudinal section schematic diagram when locking.

Figure 13 is the another kind of again embodiment of the present invention longitudinal section schematic diagram when locking.

Figure 14 is the another kind of again embodiment of the present invention longitudinal section schematic diagram when locking.

Figure 15 is the another kind of again embodiment of the present invention longitudinal section schematic diagram when locking.

Figure 16 is the another kind of again embodiment of the present invention longitudinal section schematic diagram when locking.

Figure 17 is the another kind of again embodiment of the present invention longitudinal section schematic diagram when locking.

Figure 18 is the another kind of again embodiment of the present invention longitudinal section schematic diagram when locking.

Among the figure: 12. keys, 13. spacing preiections, 131. limited steps, 14. ring-shaped groove, 23. offices of unblanking, 231. key guide rods, 232. guide rod, 233. projectioies, 234. magnetic bullets, 235. annular jube, 236. sliding hurdles, 237. springs, 238. location guide, 22. stop pins, 6. lock core, 61. the first pellet shot from a slingshot chute, 611. chutes, 62. first pellets shot from a slingshot, 621. groove, 631. pellets shot from a slingshot, 63. key, 64. fixing chute, 65. handles, 66. pulling points, 7. lock core cover, 71. second pellet shot from a slingshot chutes, 72. second pellets shot from a slingshot, 73. unblank a little, 70. the cover pin-and-hole, 9. tapered end shell, 91. the 3rd pellet shot from a slingshot chutes, 92. the 3rd pellet shot from a slingshot, 93. marble spring, 94. fixed pin holes, 95. steady pins, 96. location notch hole, 90. the shell pin-and-hole, 101. first cup-shaped runners, 19. rotating shafts, 111. the second cup-shaped runner, 102. first guide groove, 112. second guide grooves, 103. first stress points, 113. second stress point, 104. cover in the power transmission point, 105. first runners, cover in 115. second runners, 107. fixture, 117. staple, 108. bodies or constitute the shell of this product or coupled parts, 125. first cover endoporus, 135. the second cover endoporus, 126. first round endoporus, 136. second take turns endoporus, 127. first jubes, 137. second jube, 47. the 3rd jubes.

The specific embodiment:

The present invention is further described below in conjunction with drawings and Examples.

Embodiment 1

As shown in Figure 6, present embodiment is on the tapered end of plain edition pellet shot from a slingshot, increases the dial feature of one group of three password.Present embodiment also can be united use with other translation locksets, can serve as the handle that opens the door of another translation lockset.Select cylinder as lock core 6, with existing cylinder lock manufacture craft and technology, produce contain as shown in Figure 6 key 63 and with the cylindrical first pellet shot from a slingshot chute 61 of key 63 corresponding couplings and fixedly chute 64 lock core 6, contain the cylindrical second pellet shot from a slingshot chute 71 lock core cover 7, contain the tapered end shell 9 of cylindrical the 3rd pellet shot from a slingshot chute 91 and fixed pin holes 94.Corresponding mutually and coupling are wanted in the aperture of the first pellet shot from a slingshot chute 61, the second pellet shot from a slingshot chute 71 and the 3rd pellet shot from a slingshot chute 91 and position during making.In order to make the key 12 that links to each other with guide rod 232 when inserting key 63, not influence the rotation of lock core 6, can adopt key 63 and lock core 6 coaxial lines to make, but the space of key 63 circumference needs wide and high greater than key 12 when lock core 6 rotation, or is made into key 12 cylindrical; Also can be as shown in Figure 8, at key 12 afterbodys ring-shaped groove 14 is installed, projection 233 with ring-shaped groove 14 couplings is installed on guide rod 232, cooperatively interacting of ring-shaped groove 14 and projection 233, want the key 12 that links to each other with guide rod 232 is rotated freely with lock core 6, and can effectively control the axial displacement of key 12; Also can be as shown in Figure 9, afterbody at key 12 is installed spacing preiection 13, annular jube 235 with spacing preiection 13 corresponding couplings is installed on guide rod 232, cooperatively interacting of spacing preiection 13 and annular jube 235, also want the key 12 that links to each other with guide rod 232 is rotated freely with lock core 6, and effectively control the axial displacement of key 12.Key 12 and guide rod 232 and the office 23 of unblanking can be provided by another translation lockset or another remote control or electric control lockset.Manufacture craft and technology by existing cylinder lock, lock core cover 7 is installed in lock core 6 outsides, overlap 7 outsides at lock core tapered end shell 9 is installed, and preparation and first pellet shot from a slingshot 62 in the first pellet shot from a slingshot chute 61 is installed, the 3rd pellet shot from a slingshot 92 and marble spring 93 in second pellet shot from a slingshot, 72, the three pellet shot from a slingshot chutes 91 in the second pellet shot from a slingshot chute 71; The specific requirement of pellet shot from a slingshot preparation is: when no object acts on first pellet shot from a slingshot 62, have second pellet shot from a slingshot 72 or the 3rd pellet shot from a slingshot 92 to block between lock core cover 7 and the tapered end shell 9, non-marble blocks between lock core 6 and the lock core cover 7, and lock core 6 can dally; After valid key 12 was correctly inserted key 63, no any pellet shot from a slingshot blocked between lock core cover 7 and the tapered end shell 9, had first pellet shot from a slingshot 62 or second pellet shot from a slingshot 72 to block between lock core 6 and the lock core cover 7, and lock core cover 7 can rotate together with lock core 6 at this moment.Install in the outside of lock core cover 7 and to unblank a little 73, be used for directly or indirectly driving the latch of similar door, 73 parts that also can be used for driving dead bolt in the existing lock body or world latch or be associated of unblanking a little with it, the influence that 73 installation and its scope of activities of unblanking a little will be avoided tapered end shell 9 can be left a chute be used to unblank a little 73 installation and use in tapered end shell 9 appropriate locations when needing.Can adopt steady pin 95 to pack in the fixed pin holes 94 corresponding the axial displacement that comes control lock head capsule 9 relative lock cores 6 into fixing chute 64.Also can adopt the manufacture craft and the technology of existing lockset, control lock core 6, lock core cover 7 and tapered end shell 9 axial displacement to each other.Overlap the arranged outside pulling point 66 of 7 one end lock cores 6 again at lock core.Produce first jube 127 and first runner interior cover 105, second jube 137 of the first cover endoporus 125 and the interior cover 115 of second runner of the second cover endoporus 135 as shown in Figure 6 again.In practical application and making, first jube 127 can also can separate with cover 105 integral manufacturings in first runner makes the back recombinant together, second jube 137 also can or separate and make the back recombinant together with cover 115 integral manufacturings in second runner, the concrete shape of first jube 127 and second jube 137 can be that sheet also can be that column also can be a convex, its concrete shape is decided with whether selecting for use by needs, as long as can be convenient to the location of the first cup-shaped runner 101 and the second cup-shaped runner 111 and prevent its interference each other.

Among Fig. 6, the first cup-shaped runner 101 is installed in the cylinder periphery of lock core 6, cup at the first cup-shaped runner 101 is provided with first round endoporus 126 at the end, being provided with the first cover endoporus 125 that overlaps the interior cover 105 of 105, the first runners in first runner that contains the first cover endoporus 125 in first round endoporus 126 is enclosed on the periphery of lock core 6; Cover 105 is positioned at the cylinder periphery of pulling point 66 1 side chain cores 6 in the first cup-shaped runner 101 and first runner, on the rim of a cup end face of the first cup-shaped runner 101, be provided with guide groove 102, on the first cup-shaped runner 101, also be provided with first stress point 103 with pulling point 66 corresponding and mutual couplings.Overlap 115 being provided with in second runner with a side chain core 6 outsides at the bottom of 101 glasss of first stress point, the 103 non-homonymy first cup-shaped runners, as can be seen from Figure 6, stress point 103 is positioned at the inboard of the first cup-shaped runner 101, and with the first cup-shaped runner 101 inboard homonymies, the interior cover 115 of second runner is positioned at the side at the bottom of first cup-shaped runner 101 outside cups, and cover 115 also is positioned at lock core 6 outsides that first runner overlaps 105 the inners in second runner; Cover 115 outsides are provided with the second cup-shaped runner 111 in second runner, the second cup-shaped runner 111 is identical with the rim of a cup direction of the first cup-shaped runner 101, second guide groove 112 is arranged on the rim of a cup end face of the second cup-shaped runner 111, be provided with second stress point 113 in second cup-shaped runner 111 1 sides adjacent with the first cup-shaped runner 101, be provided with in first cup-shaped runner 101 1 sides corresponding that cover 115 can be fixedly connected with tapered end shell 9 by riveting, weldering or fixture 107 in power transmission point 104, the second runners with second stress point 113.For reducing in first runner required volume of cover in cover 105 and second runner 115 and the volume of manufactured goods, lock core 6 can be made into different two sections of coaxial line diameter thickness, wherein thick one section of diameter is used to install the first pellet shot from a slingshot chute 61 and first pellet shot from a slingshot 62, one section that diameter is thin is used to install cover 105, first cup-shaped runner 101 and the interior cover 115 of second runner in pulling point 66, first runner, in any case make, can rotate synchronously with one section that contains pellet shot from a slingshot chute 61 as long as be used to install a section of pulling point 66.Among Fig. 6, in first runner in first of the cover 105 cover endoporus 125 and second runner second cover endoporus 135 of cover 115 will with the size match of the cylinder periphery of lock core 6.Available prior art is produced the first cup-shaped runner 101 that contains first round endoporus 126 and first guide groove 102 and first stress point 103 among Fig. 6 and Fig. 7, first round endoporus 126 is positioned at the cup end of the first cup-shaped runner 101, can communicate with the interior outside at the bottom of 101 glasss of the first cup-shaped runners or obstructed, in the diagram for communicating.First guide groove 102 is located on the rim of a cup end face of the first cup-shaped runner 101, the size match of the size that the size of first guide groove 102 will be met with guide rod 232 and the required displacement of guide rod 232, the size of the first round endoporus 126 among Fig. 6 also will with the outside coupling of cover 105 in first runner; Use again to produce and contain the second second cup-shaped runner 111 of taking turns endoporus 136 and second guide groove 112 and second stress point 113 with quadrat method.Among Fig. 6, the second cup-shaped runner 111 is installed in the outside of the first cup-shaped runner 101 and equidirectional with the first cup-shaped runner 101, and therefore, the rim of a cup diameter of the second cup-shaped runner 111 needs the rim of a cup diameter greater than the first cup-shaped runner 101.

See also Fig. 6, can be in lock core 6 cylinder periphery at a distance of pulling point 66 1 sides, cover 115 in second runner that contains second jube 137 is installed earlier, cover 115 can adopt screw, riveting, welding technology or fixture 107 to be fixedly linked with tapered end shell 9 in second runner, the second cup-shaped runner 111 is installed in cover 115 outsides in second runner, the rim of a cup installation direction of the present embodiment second cup-shaped runner 111 is, the outside, the cup end of the second cup-shaped runner 111 is than an end face of the more close lock core cover 7 in inboard at the bottom of its glass, at installed inside second stress point 113 of the second cup-shaped runner 111; The lock core 6 cylinder periphery at cover 115 outer distolateral place are installed in first runner and are overlapped 105 in second runner of the second cup-shaped runner, 111 inboards again, cover 105 can be fixedly connected by cover 115 in riveting, welding technology or staple 117 and second runner in first runner, cover 105 also is to be fixedly connected with tapered end shell 9 by cover 115 in second runner in first runner in fact, again the cup end outside that first cup-shaped runner 101, the first cup-shaped runners 101 are installed in cover 105 outsides in first runner than its glass at the bottom of the more close lock core in inboard overlap an end face of 7; For preventing that the first cup-shaped runner 101 from coming off, the other end at cover 105 in first runner of first jube 127 is installed the 3rd jube 47, the 3rd jube 47 concrete shapes can be sheet or column or convex, can be installed in first runner also can be installed on lock core 6 outsides on the cover 105.First stress point 103 is located at the inboard of the first cup-shaped runner 101, and in pulling point 66 correspondences, in the outside of the first cup-shaped runner 101 the power transmission points 104 that can act on second stress point, 113 correspondences and can drive second cup-shaped runner 111 rotations are installed, power transmission point 104 also can together be made and install in first cup-shaped runner 101 processes of making.Handle 65 is installed on lock core 6.By using after manufacture craft that has lockset and dial now and the technology encapsulation.

During use, can operate by existing mode of operation of protecting limit cabinet password dial, for example: can be by preestablishing, more than 65 liang of circles of right rotation disc handle and with anchor point on a certain markers align door dignity plate on the handle 65, make two second guide grooves 112 of the second cup-shaped runner 111 corresponding with guide rod 232, again anticlockwise handle 65 one to two circle with interior and with handle 65 on anchor point on another markers align door dignity plate, make two first guide grooves 102 of the first cup-shaped runner 101 also corresponding with guide rod 232, again right rotation handle 65 a circle with interior and with handle 65 on anchor point on the another markers align door dignity plate, make the pellet shot from a slingshot chute 61 of winning corresponding with the second pellet shot from a slingshot chute 71, another one translation lockset or the electric control lockset that could open and unblank office's 23 interlocks this moment, or under another external force effect, make guide rod 232 enter first guide groove 102 and second guide groove 112, and the key 12 that drive links to each other with guide rod 232 correctly inserts key 63, make tapered end shell 9 and lock core the cover 7 between non-marble block, there is first pellet shot from a slingshot 62 to block between lock core 6 and the lock core cover 7, this moment rotary handle 65, lock core cover 7 can together rotate together with lock core 6, can realize unblanking, during locking, can under external force another translation lockset be resetted or electric control lockset resets, drive guide rod 232 and break away from first guide groove 102 and second guide groove 112, and drive key 12 resets, use again and the rightabout rotary handle 65 that opens the door, first pellet shot from a slingshot 62, second pellet shot from a slingshot 72, the 3rd pellet shot from a slingshot 92 automatically resets under marble spring 93 effect, again rotary handle 65 a few get final product.

In actual applications, in order to prevent guide rod 232 turning handle 65 to be realized opening the door again after entering first guide groove 102, the pulling point 66 and first stress point 103 can stop handle 65 to rotate on a certain direction of opening the door, when actual fabrication, can be according to handle 65 required turning on the direction of opening the door, determine pulling point 66 can with a certain contacts side surfaces of first stress point 103; Also can adopt elasticity material pulling point 66 preferably, when surpassing certain active force, pulling point 66 can slip over from first stress point 103.

In actual applications, also can omit cover 105 in first runner described in the present embodiment as required, the cup end at the first cup-shaped runner 101 is provided with the first round endoporus 126 that mates with lock core 6 cylinder periphery, the cylinder periphery that the first round endoporus 126 of the first cup-shaped runner 101 directly is enclosed within lock core 6 gets final product, and the 3rd jube 47 can be installed in the cylinder outside of lock core 6.

Embodiment 2

As shown in figure 10, among the figure, the fabrication and installation of cover 115, first jube 127, second jube 137, the 3rd jube 47, first cup-shaped runner 101, the second cup-shaped runner 111 can be identical with embodiment 1 in cover 105, second runner in first runner.As different from Example 1: the tapered end pellet shot from a slingshot of present embodiment partly is the technology that adopts existing magnetic bullet.The first pellet shot from a slingshot chute 61 is cylindrical magnetic pellet shot from a slingshot chute in the lock core 6, and first pellet shot from a slingshot 62 in the first pellet shot from a slingshot chute 61 is cylindricality pellet shot from a slingshot that contains magnetic polarity and pellet shot from a slingshot 631 combinations of falling " T " font; First pellet shot from a slingshot 62 and pellet shot from a slingshot 631 can separate making as required, also can be made into integral production, and first pellet shot from a slingshot 62 also can be made a shape that contains magnetic polarity like falling " T " font pellet shot from a slingshot; The cross section of first pellet shot from a slingshot 62 needs the cross section greater than the second pellet shot from a slingshot chute 71, and the first pellet shot from a slingshot chute 61 can be made into as required with key 63 and communicate or do not communicate.Among Figure 10, pellet shot from a slingshot 631 thin cross sections of " T " font need the cross section less than the second pellet shot from a slingshot chute 71, to guarantee that it can enter the second pellet shot from a slingshot chute 71, pellet shot from a slingshot 631 thick cross sections to " T " font need be greater than the cross section of the second pellet shot from a slingshot chute 71, to guarantee that its thick can not enter the second pellet shot from a slingshot chute 71 and also stay in the first pellet shot from a slingshot chute 61 always; On key 12, be provided with can with the magnetic bullet 234 of first pellet shot from a slingshot, the 62 corresponding couplings that contain magnetic polarity, containing the two sides that magnetic polarity first pellet shot from a slingshot 62 and magnetic bullet 234 can be adjacent is same pole; In order to ensure the magnetic force transmission, the material that lock core 6 needs selection to be magnetized.All the other can be identical with embodiment 1.

During use, can be by dialling as embodiment 1 described method, when dialing is correct, open and the another one translation lockset or the automatically controlled class lockset of unblanking office's 23 interlocks, make guide rod 232 enter first guide groove 102 and second guide groove 112, and the key 12 that driving links to each other with guide rod 232 correctly inserts key 63, since magnetic bullet 234 with contain magnetic polarity first pellet shot from a slingshot 62 and repel mutually, promote first pellet shot from a slingshot, 62 drive part pellets shot from a slingshot 631 and shift out the first pellet shot from a slingshot chute 61, make tapered end shell 9 and lock core the cover 7 between non-marble block, there are part first pellet shot from a slingshot 62 or part pellet shot from a slingshot 631 to block between lock core 6 and the lock core cover 7, this moment rotary handle 65, lock core cover 7 can together rotate together with lock core 6, can realize unblanking, during locking, can under external force another translation lockset be resetted or electric control lock resets, drive guide rod 232 and break away from first guide groove the 102 and the 2 112, and drive key 12 resets, use again and the rightabout rotary handle 65 that opens the door, first pellet shot from a slingshot 62, second pellet shot from a slingshot 72, the 3rd pellet shot from a slingshot 92 automatically resets under marble spring 93 effect, again rotary handle 65 a few get final product.

In actual applications, also can omit cover 105 in first runner described in the present embodiment as required, the cup end at the first cup-shaped runner 101 is provided with the first round endoporus 126 that mates with lock core 6 cylinder periphery, the cylinder periphery that the first round endoporus 126 of the first cup-shaped runner 101 directly is enclosed within lock core 6 gets final product, and the 3rd jube 47 can be installed in the cylinder outside of lock core 6.

Embodiment 3

As shown in figure 11, among the figure, lock core 6, the first pellet shot from a slingshot chute 61, first pellet shot from a slingshot 62, lock core cover 7, the second pellet shot from a slingshot chute 71, second pellet shot from a slingshot 72, tapered end shell 9, the 3rd pellet shot from a slingshot chute 91, the 3rd pellet shot from a slingshot 92 and lock core 6, relative structure can be identical with embodiment 1 with installation between lock core cover 7 and the tapered end shell 9, as different from Example 1: the ring-shaped groove 14 that links to each other with key 12 is located at the lock core 6 cylinder cylinders outside, ring-shaped groove 14 in first runner, overlap 105 and lock core overlap between 7 end faces, commentaries on classics hole 15 in the ring-shaped groove 14 will be mated with the outside of lock core 6, be convenient to drive key 12 and do axle phase shift, the key 63 on the lock core 6 also will provide certain key 12 activity intervals.First stress point 103 is positioned at the outside of the first cup-shaped runner 101, and power transmission point 104 is positioned at the inboard of the first cup-shaped runner 101.

Lock core 6 cylinder periphery at distance lock core cover 7 and ring-shaped groove 14 1 ends, pulling point 66 is installed, in installing first runner that contains first jube 127 and the first cover endoporus 125, pulling point 66 1 sides overlap 105, the first cover endoporus 125 is enclosed on the lock core 6 cylinder periphery, cover 105 outsides are installed and are contained the first cup-shaped runner 101 of taking turns endoporus 126 in first runner, the outside, the cup end of the first cup-shaped runner 101 is than an end face of the more close lock core cover 7 in inboard at the bottom of its glass, in being provided with second runner that contains the second cover endoporus 135, a side chain core 6 outsides with 101 glasss of first stress point, the 103 non-homonymy first cup-shaped runners overlap 115, as can be seen from Figure 11, stress point 103 is positioned at the outside of the first cup-shaped runner 101, and with the outside homonymy of the first cup-shaped runner 101, cover 115 is positioned at the side at the bottom of 101 inboard glasss of the first cup-shaped runners in second runner, and cover 115 also is positioned at lock core 6 outsides that first runner overlaps 105 outer ends in second runner; Cover 115 can contain cover endoporus 135 in second runner, cover 115 is by fixture 107 and door body or constitute the shell of this product or coupled parts 108 are fixedly connected in second runner, cover 105 is fixedly connected by cover 115 in the staple 117 and second runner in first runner, in fact cover 105 is indirectly by the door body or constitute the shell of this product or coupled parts 108 and tapered end shell 9 is fixedly connected in first runner, and cover 115 outsides are installed and made the second cup-shaped runner 111 that contains second guide groove 112 in second runner.Be provided with second stress point 113 in second cup-shaped runner 111 1 sides adjacent, be provided with power transmission point 104 in first cup-shaped runner 101 1 sides corresponding with second stress point 113 with the first cup-shaped runner 101; Among Figure 11, the second cup-shaped runner 111 is positioned at the inboard of the first cup-shaped runner 101, and the outside, the cup end of the second cup-shaped runner 111 is than an end face of the more close lock core cover 7 in inboard at the bottom of its glass, and second stress point 113 is positioned at the outside of the second cup-shaped runner 111.All the other can be identical with embodiment 1.

Also present embodiment lock core 6 first pellet shot from a slingshot chutes 61 can be set as the magnetic bullet chute described in the embodiment 2, first pellet shot from a slingshot 62 in the first pellet shot from a slingshot chute 61 is for being similar to the pellet shot from a slingshot that " T " font contains magnetic polarity outward, or first have down in the pellet shot from a slingshot chute 61 " T " font pellet shot from a slingshot 631 and cylindricality to contain first pellet shot from a slingshot, 62 combinations of magnetic polarity, the second pellet shot from a slingshot chute 71 and second pellet shot from a slingshot 72 with the first pellet shot from a slingshot chute, 61 corresponding couplings are arranged in lock core cover 7, the cross section of first pellet shot from a slingshot 62 needs the cross section greater than the second pellet shot from a slingshot chute 71, and the 3rd pellet shot from a slingshot chute 91 and the 3rd pellet shot from a slingshot 92 and marble spring 93 with the second pellet shot from a slingshot chute, 71 couplings are also arranged in tapered end shell 9.

In actual applications, also can omit cover 105 in first runner described in the present embodiment as required, the cup end at the first cup-shaped runner 101 is provided with the first round endoporus 126 that mates with lock core 6 cylinder periphery, the cylinder periphery that the first round endoporus 126 of the first cup-shaped runner 101 directly is enclosed within lock core 6 gets final product, and the 3rd jube 47 can be installed in the cylinder outside of lock core 6.

Embodiment 4

As shown in figure 12, in the present embodiment, relative structure and installation be can be with embodiment 1 identical or embodiment 3 is identical between lock core 6, the first pellet shot from a slingshot chute 61, first pellet shot from a slingshot 62, lock core cover 7, the second pellet shot from a slingshot chute 71, second pellet shot from a slingshot 72, tapered end shell 9, the 3rd pellet shot from a slingshot chute 91, the 3rd pellet shot from a slingshot 92 and lock core 6, lock core cover 7 and the tapered end shell 9, also can be re-established as identical with embodiment 2.Present embodiment as different from Example 3, overlap 115 in cover 105 and second runner in described first runner of present embodiment and can not contain the cover endoporus, so also can reduce the volume of product, in first runner in cover 105 and second runner cover 115 be installed in the end face outside of lock core 6, and by fixture 107 and door body or constitute the shell of this product or coupled parts 108 are fixedly connected.The described first cup-shaped runner 101 is installed in the end face outside of lock core 6, is provided with first round endoporus 126 at the cup end of the first cup-shaped runner 101, is provided with to overlap the end face outside that the interior cover 105 of 105, the first runners is positioned at lock core 6 in first runner in first round endoporus 126.

Among Figure 12, one end face of the more close lock core cover 7 in the inboard of the outside at the bottom of first cup-shaped runner 101 its glasss at the bottom of than its glass, first guide groove 102 is positioned on the rim of a cup end face of the first cup-shaped runner 101, in a side, be provided with first stress point 103 corresponding with pulling point 66 near the first cup-shaped runner 101 of pulling point 66.Overlap 115 being provided with in second runner with a side at the bottom of 101 glasss of first stress point, the 103 non-homonymy first cup-shaped runners, as can be seen from Figure 12, first stress point 103 is positioned at the outside of the first cup-shaped runner 101, and with the outside homonymy of the first cup-shaped runner 101, cover 115 is positioned at the side at the bottom of 101 inboard glasss of the first cup-shaped runners in second runner, and cover 115 also is positioned at first runner to overlap the lock core 6 of 105 outer ends distolateral in second runner; Outer distolateral being provided with in second runner of cover 105 overlaps 115 in first runner, cover 115 outsides are provided with the second cup-shaped runner 111 in second runner, second guide groove 112 is arranged on the rim of a cup end face of the second cup-shaped runner 111, the second cup-shaped runner 111 is positioned at the first cup-shaped runner, 101 inboards, one end face of the more close lock core cover 7 in the inboard of the outside at the bottom of second cup-shaped runner 111 its glasss at the bottom of than its glass, be provided with second stress point 113 in second cup-shaped runner 111 1 sides adjacent with the first cup-shaped runner 101, be provided with the power transmission point 104 corresponding in a side of the first cup-shaped runner 101 corresponding with second stress point 113 with second stress point 113, in first runner in cover 105 and second runner cover 115 can be fixedly connected by rivet welding or staple 117, and can or constitute the shell of this product or coupled parts 108 are fixedly connected by rivet welding or fixture 107 and door body.Be provided with the key 12 that links to each other with guide rod 232 in described key 63, key 12 method that links to each other with guide rod 232 can realize by ring-shaped groove 14 and the projection 233 that is located on the lock core 6 cylinder periphery, is connected with handle 65 in lock core 6 outer ends.It is described that all the other can identically with embodiment 3 maybe can consult embodiment 1.

In actual applications, can as required the first cup-shaped runner 101 among Figure 12 and the second cup-shaped runner 111 oppositely be installed, that is: an end face of the more close lock core cover 7 in the outside of the inboard at the bottom of the first cup-shaped runner 101 and second cup-shaped runner 111 its glasss at the bottom of than its glass, be provided with second stress point 113 in second cup-shaped runner 111 1 sides adjacent, be provided with power transmission point 104 in first cup-shaped runner 101 1 sides corresponding with second stress point 113 with the first cup-shaped runner 101.

In actual applications, also the 6 first pellet shot from a slingshot chutes 61 of lock core in the present embodiment can be set as the magnetic bullet chute described in the embodiment 2, first pellet shot from a slingshot 62 in the first pellet shot from a slingshot chute 61 is for being similar to the pellet shot from a slingshot that " T " font contains magnetic polarity outward, or first have down in the pellet shot from a slingshot chute 61 " T " font pellet shot from a slingshot 631 and cylindricality to contain first pellet shot from a slingshot, 62 combinations of magnetic polarity, lock core overlaps the second pellet shot from a slingshot chute 71 and second pellet shot from a slingshot 72 that has in 7 with the first pellet shot from a slingshot chute, 61 corresponding couplings, and the 3rd pellet shot from a slingshot chute 91 and the 3rd pellet shot from a slingshot 92 and marble spring 93 with the second pellet shot from a slingshot chute, 71 corresponding couplings are also arranged in the tapered end shell 9.

Embodiment 5

As shown in figure 13, in the present embodiment, structure between lock core 6, the first pellet shot from a slingshot chute 61, first pellet shot from a slingshot 62, lock core cover 7, the second pellet shot from a slingshot chute 71, second pellet shot from a slingshot 72, tapered end shell 9, the 3rd pellet shot from a slingshot chute 91, the 3rd pellet shot from a slingshot 92 and lock core 6, lock core cover 7 and the tapered end shell 9 and installation can with identical or embodiment 3 among the embodiment 1 in identical, also can this be set as with embodiment 2 in identical.Present embodiment is as different from Example 1: in the present embodiment, key 63 and lock core 6 outer distolateral communicating are inserted in order to valid key and to be unblanked; The inner of key 63 is inserted with key guide rod 231, and key guide rod 231 blocks the part pellet shot from a slingshot in the lock core 6, in case illegally insert key unlocking, lock core 6 key chutes 63 will provide between the certain normal sliding area of key guide rod 231; Be provided with pulling point 66 with key 63 the inners with lock core 6 outsides that the side direction lock core overlaps 7 one ends; Can in dialing procedure, rotate freely with lock core 6 for ease of key guide rod 231, the sliding hurdle 236 that can link to each other with guide rod 232 is installed in outer end at key guide rod 231, sliding hurdle 236 can be that the plane cooperates with the contact surface of key guide rod 231, also can be that track cooperates, to mate slyness in a word, to reduce mutual frictional resistance; For key guide rod 231 and guide rod 232 can be automatically reset when the locking, in second runner, between cover 115 and the cunning hurdle 236 spring 237 is housed; In order to make guide rod 232 in use not produce rotating deviation, be convenient to first guide groove 102, second guide groove 112 and guide rod 232 location, installing and locating guide rod 238 on guide rod 232, tapered end shell 9 or with parts that tapered end shell 9 links to each other on location notch hole 96 with location guide 238 corresponding couplings is installed, locating channel 96 also can be arranged on and a body or constitute in the shell or coupled parts 108 of this product.In the present embodiment, the installation direction of the first cup-shaped runner 101 and the second cup-shaped runner 111 is the inboard end face than the more close lock core cover 7 in the outside at the bottom of its glass in the cup end of the first cup-shaped runner 101 and the second cup-shaped runner 111; First stress point 103 that is positioned at pulling point 66 1 sides is positioned at the outside of the first cup-shaped runner 101; Overlap 115 being provided with in second runner with a side chain core 6 outsides at the bottom of 101 glasss of first stress point, the 103 non-homonymy first cup-shaped runners, from Figure 13 also as can be seen, first stress point 103 and first cup-shaped runner 101 outside homonymies, cover 115 is positioned at a side chain mandrel 6 outsides at the bottom of 101 inboard glasss of the first cup-shaped runners in second runner, cover 115 outsides are provided with the second cup-shaped runner 111 in second runner, the first cup-shaped runner 101 is identical with the rim of a cup direction of the second cup-shaped runner 111, second guide groove 112 is arranged on the rim of a cup end face of the second cup-shaped runner 111, be provided with second stress point 113 in second cup-shaped runner 111 1 sides adjacent, be provided with power transmission point 104 in first cup-shaped runner 101 1 sides corresponding with second stress point 113 with the first cup-shaped runner 101.

In Figure 13, cover 105 contains the first cover endoporus 125 in described first runner, the first cover endoporus 125 is enclosed in the cylinder periphery of lock core 6, first stress point 103 is positioned at the outside of the first cup-shaped runner 101, cover 105 and lock core overlap lock core 6 cylinder periphery between 7 end faces and are provided with and contain second and overlap in second runner of endoporus 135 and overlap 115 in first runner, in first runner in cover 105 and second runner cover 115 be fixedly connected by staple 117, the second cup-shaped runner 111 that cover 115 outsides are provided with in second runner, the rim of a cup end face of the second cup-shaped runner 111 is provided with second guide groove 112, the second cup-shaped runner, 111 outsides are provided with second stress point 113, the first cup-shaped runner, 101 inboards are provided with in power transmission point 104, the first runners corresponding with second stress point 113 that cover 115 is fixedly connected by fixture 107 and tapered end shell 9 in cover 105 and second runner.In lock core 6 key 63 relative, be provided with key guide rod 231 with the first cup-shaped runner 101 or the second cup-shaped runner, 111 inboards, lock core 6 cylinder periphery between key guide rod 231 and the first cup-shaped runner 101 or the second cup-shaped runner, 111 inboards are provided with sliding hurdle 236, on sliding hurdle 236, be connected with guide rod 232, on guide rod 232, be connected with an end of location guide 238, the other end of location guide 238 is arranged in locating channel 96, is provided with between at the bottom of 111 glasss of sliding hurdle 236 and the first cup-shaped runner 101 or the second cup-shaped runners and can makes guide rod 232 and key guide rod 231 automatically reset springs 237; Among Figure 13, key 63 at the lock core 6 relative with the second cup-shaped runner, 111 inboards is provided with key guide rod 231, lock core 6 cylinder periphery between key guide rod 231 and the second cup-shaped runner, 111 inboards are provided with sliding hurdle 236, on sliding hurdle 236, be connected with guide rod 232, cup at the sliding hurdle 236 and the second cup-shaped runner 111 is provided with spring 237 at the end, be connected with an end of location guide 238 on guide rod 232, the other end of location guide 238 is arranged in the locating channel 96 that links to each other with tapered end shell 9.

During making, leaving the key 63 that can allow between correct insertion of valid key and key guide rod 231 required sliding areas on the lock core 6, and the manufacturing technology of the existing common spring lock of peace, install lock core cover 7 and tapered end shell 9 and with first pellet shot from a slingshot 62, second pellet shot from a slingshot 72, the 3rd pellet shot from a slingshot 92 and the marble spring 93 of its coupling.Insert key guide rod 231 in key 63, sliding hurdle 236 and guide rod 232 are installed on lock core 6 periphery of key guide rod 231 outer ends, sliding hurdle 236 can together make also can separate with guide rod 232 and make; Installing and locating slotted eye 96 on tapered end shell 9, installing and locating guide rod 238 on guide rod 232 and location notch hole 96.Again by cover 115 in the lock core 6 cylinder periphery mounting spring 237 shown in Figure 13 and second runner, cover 115 is fixedly connected by fixture 107 and tapered end shell 9 in second runner, cover 115 outsides are installed second cup-shaped runner 111, the second cup-shaped runners, 111 outsides of having made second stress point 113 are installed in second runner; The cylinder periphery of cover 115 outer end lock cores 6 is installed the cover 105 and first cup-shaped runner 101 in first runner in second runner again, there is first stress point 103 in the first cup-shaped runner, 101 outsides, the first cup-shaped runner, 101 inboards have the interior cover 105 of power transmission point 104, the first runners to be fixedly connected by cover 115 and tapered end shell 9 in the staple 117 and second runner.Pulling point 66 with first stress point, 103 corresponding couplings is installed on lock core 6 outsides.All the other can be identical with embodiment 1.

During use, available key inserts the key 63 that does not have first pellet shot from a slingshot, 62 front ends, by preestablishing, more than a left side or right rotation key two enclose, aim at a certain number on the panel with gauge point on the key, make second guide groove 112 aim at guide rod 232, again in opposite spin key one to two circle, make on the key gauge point aim at another number on the panel again, make first guide groove 102 aim at guide rod 232, opposite spin key one circle makes the first pellet shot from a slingshot chute 61 corresponding with the second pellet shot from a slingshot chute 71 with interior and gauge point aimed at another number on the panel again; Firmly insert valid key this moment, key head promotes key guide rod 231, drive guide rod 232 and enter first guide groove 102 and second guide groove 112, key guide rod 231 shifts out occupied part key 63 simultaneously, makes valid key can correctly insert key 63 and realizes unblanking.During locking, key makes the second pellet shot from a slingshot chute 71 and the 3rd pellet shot from a slingshot chute 91 correspondences, and extracting key simultaneously this moment, under spring 237 effects, guide rod 232 shifts out first guide groove 102 and second guide groove 112, and key guide rod 231 inserts and occupy part key 63 again; Under marble spring 93 effect, the 3rd pellet shot from a slingshot 92, second pellet shot from a slingshot 72 and first pellet shot from a slingshot 62 also automatically reset, and this moment, lock core was got back to idling conditions again, again idle-run lock pin a few get final product.

In actual fabrication, be dialing and easy to use, can a round handle 65 be installed as dial on lock core 6 by shown in Figure 13, in handle 65 and key 63 corresponding positions the slot that can insert key is set.

In actual applications, the present embodiment lock core first pellet shot from a slingshot chute 61 can be set as the magnetic bullet chute described in the embodiment 2, first pellet shot from a slingshot 62 in the first pellet shot from a slingshot chute 61 is for being similar to the pellet shot from a slingshot that " T " font contains magnetic polarity outward, or first have down in the pellet shot from a slingshot chute 61 " T " font pellet shot from a slingshot 631 and cylindricality to contain first pellet shot from a slingshot, 62 combinations of magnetic polarity, the cross section of the first pellet shot from a slingshot chute 62 needs the cross section greater than the second pellet shot from a slingshot chute 71, and the 3rd pellet shot from a slingshot chute 91 and the 3rd pellet shot from a slingshot 92 and the marble spring 93 that match are arranged in the tapered end shell 9.

In actual applications, also can omit cover 105 in first runner described in the present embodiment as required, the cup end at the first cup-shaped runner 101 is provided with the first round endoporus 126 that mates with lock core 6 cylinder periphery, the cylinder periphery that the first round endoporus 126 of the first cup-shaped runner 101 directly is enclosed within lock core 6 gets final product, and the 3rd jube 47 can be installed in the cylinder outside of lock core 6.

Embodiment 6

As shown in figure 14, among the figure, the making and the installation of cover 115, first jube 127, second jube 137, the 3rd jube 47, first cup-shaped runner 101, the second cup-shaped runner 111, key guide rod 231, sliding hurdle 236, guide rod 232, spring 237 can be identical with embodiment 5 in the interior cover of first runner 105, second runner.Present embodiment as different from Example 5, in Figure 13 of embodiment 5, the billiards structure between lock core 6, lock core cover 7 and the tapered end shell 9 is the common catapult minor structure; And in the present embodiment, the billiards structure between lock core 6, lock core cover 7 and the tapered end shell 9 be known as side column type billiards structure or blade marble or arc slide billiards structure.Fig. 3, Fig. 4 and Fig. 5 also can be used as lock core 6, lock core cover 7, tapered end shell 9 and the structural representation relevant with its pellet shot from a slingshot in the present embodiment.

See also Fig. 3, Fig. 4, Fig. 5 and Figure 14, the described tapered end of present embodiment comprises tapered end shell 9, lock core cover 7, lock core 6, lining 60, first pellet shot from a slingshot 62, second pellet shot from a slingshot 72, the 3rd pellet shot from a slingshot 92, key guide rod 231, cover 105 in first runner, cover 115 in second runner, the first cup-shaped runner 101, the second cup-shaped runner 111, spring 237 and guide rod 232 etc., described lock core 6 is cylindric, the described first pellet shot from a slingshot chute 61 is the annular pellet shot from a slingshot chute perpendicular to lock core 6 axis, be provided with columnar lining 60 in the outside of lock core 6 first pellet shot from a slingshot chutes 61, described lock core cover 7 is a cylindrical shape, be positioned at the outside of lining 60, described tapered end shell 9 is positioned at lock core and overlaps 7 outsides.Described key 63 is overlapped 7 both ends of the surface with lock core and is communicated, and the outer end of key 63 is used to insert key, and the inner of key 63 is used to insert key guide rod 231, can establish handle 65 as required the outer distolateral of place, key 63 outer end lock core 6.Be provided with pulling point 66 in lock core 6 outsides of overlapping 7 one ends with key 63 inner homonymy lock cores, the cover 105 and first cup-shaped runner 101 in lock core 6 outsides of pulling point 66 1 sides are provided with the first cup-shaped runner 101 or first runner, first guide groove 102 is arranged on the rim of a cup end face of the first cup-shaped runner 101, on the first cup-shaped runner 101, also be provided with first stress point 103 with pulling point 66 corresponding and mutual couplings.Overlap 115 being provided with in second runner with a side chain core 6 outsides at the bottom of 101 glasss of first stress point, the 103 non-homonymy first cup-shaped runners, from Figure 14 also as can be seen, first stress point 103 and first cup-shaped runner 101 outside homonymies, cover 115 is positioned at the side at the bottom of 101 inboard glasss of the first cup-shaped runners in second runner; Cover 115 outsides are provided with the second cup-shaped runner 111 in second runner, the first cup-shaped runner 101 is identical with the rim of a cup direction of the second cup-shaped runner 111, second guide groove 112 is arranged on the rim of a cup end face of the second cup-shaped runner 111, be provided with second stress point 113 in second cup-shaped runner 111 1 sides adjacent, be provided with power transmission point 104 in first cup-shaped runner 101 1 sides corresponding with second stress point 113 with the first cup-shaped runner 101.See also Figure 14, cover 115 overlaps lock core 6 cylinder periphery between 7 end faces with lock core in cover 105 and second runner in first runner, is provided with key guide rod 231, cunning hurdle 236, guide rod 232 and spring 237 successively.

See also Fig. 3, Fig. 4, Fig. 5, and Figure 14, the first pellet shot from a slingshot chute 61 of the described lock core 6 of present embodiment is the annular pellet shot from a slingshot chute perpendicular to lock core 6 axis, first pellet shot from a slingshot 62 in the first pellet shot from a slingshot chute 61 is the pellet shot from a slingshot of a pair of arc sheet, should be to being provided with stage clip 69 between first pellet shot from a slingshot, 62 adjacent two end faces, should leave certain clearance between two other end face to first pellet shot from a slingshot 62, on every pair first pellet shot from a slingshot 62, be provided with groove 621, the first pellet shot from a slingshot chute, 61 outsides at lock core 6 are provided with lining 60, on lining 60 and lock core 6, also be provided with the chute 611 that communicates with the first pellet shot from a slingshot chute 61, described lock core cover 7 is located at the outside of village's cover 60, the second pellet shot from a slingshot chute 71 with groove 611 corresponding couplings is arranged in lock core cover 7, described second pellet shot from a slingshot 72 can place chute 611 and pellet shot from a slingshot chute 71, the 3rd pellet shot from a slingshot chute 91 of described tapered end shell 9 inboards and the corresponding coupling in second pellet shot from a slingshot, 72 outer ends.

See also Fig. 3, Fig. 4, Fig. 5, and Figure 14, on the described cartridge outer surface that is cylindric lock core 6, one group of annular first pellet shot from a slingshot chute 61 perpendicular to lock core 6 axis is set, in each annular first pellet shot from a slingshot chute 61, be symmetrical arranged first pellet shot from a slingshot 62 of a pair of arc sheet and the stage clip 69 of one first pellet shot from a slingshot 62, the two ends of this stage clip 69 are pressed on respectively on this adjacent section to first pellet shot from a slingshot 62, as producing the magnetic pole that contains mutual repulsion at this on to first pellet shot from a slingshot, 62 adjacent faces with magnetic material, also can omit stage clip 69, between this is to first pellet shot from a slingshot, 62 two other end faces, leave certain interval, be convenient to key and insert key 63; Described first pellet shot from a slingshot, 62 its inner rim and outer rim are arc, in the outer rim appropriate location of every pair first pellet shot from a slingshot 62 a pair of groove 621 are set respectively, and specifically by the tooth depth decision of key, the shape of this groove 621 is a trapezoidal groove as shown in Fig. 3, Fig. 4; For its lock core 6 of tapered end that can stablize first pellet shot from a slingshot 62 and stage clip 69 and make can freely dally, at the outside of lock core 6 fixed installation cylindrical shape lining 60; Key 63 among Fig. 3, Fig. 4, should with the form fit of key 12.

See also Fig. 5, Figure 14, on lining 60 and lock core 6 close top sidewalls, offer a ring-shaped groove 16, at described cylindrical lock core retainer plate 7 outer walls and these ring-shaped groove 16 corresponding pins 17 that are installed with, and stretch in this ring-shaped groove 16, make lock core 6 under any circumstance can not outwards extract like this.

Shown in Fig. 3,4,5,14, described second pellet shot from a slingshot 72 is the cuboid that cross section is a rectangle with described the 3rd pellet shot from a slingshot 92 adjacent ends, is semicylinder at the end with described first pellet shot from a slingshot, 62 vicinities; When realizing unblanking in order to be implemented in valid key 12, second pellet shot from a slingshot 72 can drop in the groove 621 of first pellet shot from a slingshot 62, in lining 60 and lock core 6, leave chute 611, chute 611 can communicate with the first pellet shot from a slingshot chute 61, it is best for vertically communicating, that is, two chutes 611 are parallel with axle, and under unlocking condition can with the groove 621 corresponding couplings in first pellet shot from a slingshot 62, chute 611 also can be seen the part of the first pellet shot from a slingshot chute 61 as; From present embodiment figure as can be seen, because described two second pellets shot from a slingshot 72 and described lining 60 and the chute 611 of lock core 6 both sides and spatial form and the size that lock core overlaps the 3rd pellet shot from a slingshot chute 91 of 7 second pellet shot from a slingshot chutes 71 and tapered end shell 9 inwalls are mated mutually, when unblanking with locking, between each inner surface of the movable end of this second pellet shot from a slingshot 72 and described pellet shot from a slingshot 9 and described the 3rd pellet shot from a slingshot chute 91, the second pellet shot from a slingshot chute 71 bigger contact surface is arranged, thereby can realize level and smooth and stable moving, be difficult for taking place maloperation.

As Fig. 3,4,5, shown in 14, described two second pellets shot from a slingshot 72 are parallel with axis, and can place the chute 611 and the lock core that are opened in described lining 60 and lock core 6 to overlap in the 7 second pellet shot from a slingshot chutes 71, opposite position at tapered end shell 9 inwalls and the second pellet shot from a slingshot chute 71 is provided with the 3rd pellet shot from a slingshot chute 91, the 3rd pellet shot from a slingshot chute 91 should mate mutually with the geometry and the size of second pellet shot from a slingshot, 72 outer ends, when this lock is in as Fig. 3 and locking states shown in Figure 14, the marble spring 93 of described the 3rd pellet shot from a slingshot 92 is in compressive state, and second pellet shot from a slingshot 72 held out against between the top second pellet shot from a slingshot chute 71 and the 3rd pellet shot from a slingshot chute 91 that is located at cylindrical shape lining 60, the both sides of this second pellet shot from a slingshot 72 will stop the relative displacement between lock core cover 7 and the tapered end shell 9, make lock core cover 7 rotate, and this moment, because lining 60 is not subjected to any stopping together with lock core 6, can arbitrarily carry out the rotation of 360 degree, promptly lock core can dally.As shown in Figure 4: after inserting valid key 12 fully, the side tooth on these key both sides will promote the front end of first pellet shot from a slingshot 62, this first pellet shot from a slingshot 62 moves along the annular first pellet shot from a slingshot chute 61, compression press spring 69, then make groove 621 on first pellet shot from a slingshot, 62 outer rims move to the second pellet shot from a slingshot chute, 71 corresponding sections with lock core cover 7, under marble spring 93 effects of the 3rd pellet shot from a slingshot 92, this second pellet shot from a slingshot 72 shifts out the 3rd pellet shot from a slingshot chute 91, whole second pellet shot from a slingshot 72 enter fully with the chute 611 equitant grooves 621 and the second pellet shot from a slingshot chute 71 in, at this moment, lining 60 is together with no any object blocks between lock core 6 and lock core cover 7 and the tapered end shell 9, lock core cover 7 can rotate under the drive of lock core 6, thereby will lock unlatching.

See also Fig. 3 and Figure 14, in plug keyway 63, insert the key guide rod 231 that can occupy part key 63, the other end of key guide rod 231 links to each other with guide rod 232, for prevent that lock core 6 is influenced by guide rod 232 when driving 231 rotations of key guide rod, be provided with the sliding hurdle 236 that links to each other with guide rod 232 at key guide rod 231 with lock core 6 cylinder periphery between the first cup-shaped runner 101 or the second cup-shaped runner, 111 inboards, sliding hurdle 236 can be that the plane cooperates with the contact surface of key guide rod 231, also can be that track cooperates, to mate slyness in a word, to reduce mutual resistance and friction.Sliding hurdle 236 can also can separate with guide rod 232 integral productions and makes.For key guide rod 231 and guide rod 232 can be automatically reset when the locking, between cover 115 and the cunning hurdle 236 spring 237 is housed at the bottom of 111 glasss of the second cup-shaped runners or in second runner; In order to make guide rod 232 in use not produce rotating deviation, be convenient to first guide groove 102 and second guide groove, 112 location, installing and locating guide rod 238 on guide rod 232, tapered end shell 9 or with parts that tapered end shell 9 links to each other on location notch hole 96 with location guide 238 corresponding couplings is installed.All the other can be referring to embodiment 5.

During use, when no valid key is inserted key 63 fully, because second pellet shot from a slingshot 72 is positioned at the outside of lining 60, at this moment, available key inserts key 63 and comes rotary locking cylinder 6 to dial, also can handle 65 be installed on lock core 6 dials, correct when dialling, first guide groove 102 and second guide groove 112 are seasonable with 232 pairs of guide rods, firmly insert valid key this moment, the valid key front end promotes key guide rod 231, sliding hurdle 236 and guide rod 232 enter first guide groove 102 and 112 whiles of second guide groove at guide rod 232, key guide rod 231 is abdicated occupied part key 63, makes this valid key can correctly insert key 63 and realizes unblanking.

In actual applications, also can omit cover 105 in first runner described in the present embodiment as required, the cup end at the first cup-shaped runner 101 is provided with the first round endoporus 126 that mates with lock core 6 cylinder periphery, the cylinder periphery that the first round endoporus 126 of the first cup-shaped runner 101 directly is enclosed within lock core 6 gets final product, and the 3rd jube 47 can be installed in the cylinder outside of lock core 6.

In actual applications, can be as required be arranged to relative structure between the lock core in the present embodiment 6, the first pellet shot from a slingshot chute 61, first pellet shot from a slingshot 62, lock core cover 7, the second pellet shot from a slingshot chute 71, second pellet shot from a slingshot 72, tapered end shell 9, the 3rd pellet shot from a slingshot chute 91, the 3rd pellet shot from a slingshot 92 and lock core 6, lock core cover 7 and the tapered end shell 9 identical or embodiment 2 is identical with embodiment 1.

Embodiment 7

As shown in figure 15, among the figure, relative structure is described identical with embodiment 6 between lock core 6, the first pellet shot from a slingshot chute 61, first pellet shot from a slingshot 62, lock core cover 7, the second pellet shot from a slingshot chute 71, second pellet shot from a slingshot 72, tapered end shell 9, the 3rd pellet shot from a slingshot chute 91, the 3rd pellet shot from a slingshot 92 and lock core 6, lock core cover 7 and the tapered end shell 9, as different from Example 6: embodiment 6 adopts key to insert key 63 from the outside to realize unblanking, and key can be carried.Present embodiment is to adopt built-in key, needs to make the built-in key 12 correct key 63 of inserting realize unblanking under external force or an other lockset are unblanked the promotion of office 23.One end face of the more close lock core cover 7 in the inboard of the outside at the bottom of the first cup-shaped runner 101 in the present embodiment and second cup-shaped runner 111 its glasss at the bottom of than its glass.The handle 65 of present embodiment is to connect by the adapter sleeve on the panel 8 81 with being connected of lock core 6, can effectively protect lock core 6 to exempt from outside destroy like this.

See also Figure 15, the ring-shaped groove 14 that links to each other with key 12 is located at the lock core 6 cylinders outside, among the figure ring-shaped groove 14 in second runner, overlap 115 and lock core overlap between 7 end faces, commentaries on classics hole 15 in the ring-shaped groove 14 will be mated with the outside of lock core 6, be convenient to drive key 12 and do axle phase shift, the key 63 on the lock core 6 also will provide certain key 12 activity intervals; Key 12 links to each other with guide rod 232 by the projection 233 that is located on the ring-shaped groove 14.Lock core 6 cylinder periphery at distance lock core cover 7 and ring-shaped groove 14 1 ends, pulling point 66 is set, pulling point 66 1 side settings contain first jube 127 and first the cover endoporus 125 first runner in overlap 105, the first cover endoporus 125 is enclosed in the cylinder periphery of lock core 6, in first runner, outside the cover 105 the first cup-shaped runner 101 is set, the outside, the cup end of the first cup-shaped runner 101 is than an end face of the more close lock core cover 7 in inboard at the bottom of its glass, overlap 115 being provided with in second runner with a side chain core 6 outsides at the bottom of 101 glasss of first stress point, the 103 non-homonymy first cup-shaped runners, from Figure 15 also as can be seen, first stress point 103 and the first cup-shaped runner 101 inboard homonymies, the interior cover 115 of second runner is positioned at the side at the bottom of first cup-shaped runner 101 outside cups; Cover 115 contains cover endoporus 135 in second runner, cover 115 is fixedly connected by fixture 107 and tapered end shell 9 in second runner, cover 105 is fixedly connected by cover 115 in the staple 117 and second runner in first runner, in fact in first runner cover 105 be indirectly and tapered end shell 9 be fixedly connected, the second cup-shaped runner 111 that contains second guide groove 112 has been made in the installation of cover 115 outsides in second runner.Be provided with second stress point 113 in second cup-shaped runner 111 1 sides adjacent, be provided with power transmission point 104 in first cup-shaped runner 101 1 sides corresponding with second stress point 113 with the first cup-shaped runner 101; Among Figure 15, the second cup-shaped runner 111 is positioned at the outside of the first cup-shaped runner 101, the outside, the cup end of the second cup-shaped runner 111 is than an end face of the more close lock core cover 7 in inboard at the bottom of its glass, second stress point 113 is positioned at the inboard of the second cup-shaped runner 111, and power transmission point 104 is positioned at the outside of the first cup-shaped runner 101.

During assembling, in installing second runner that contains the second cover endoporus 135, the cylinder periphery of lock core 6 overlaps 115, cover 115 is fixedly connected by fixture 107 and tapered end shell 9 in second runner, the second cup-shaped runner of having made 111 is installed in cover 115 outsides in second runner, there are second guide groove, 112, the second stress points 113 to be positioned at the inboard of the second cup-shaped runner 111 on the rim of a cup end face of the second cup-shaped runner 111.Again in second runner of the second cup-shaped runner, 111 inboards outside the cover 115 the cylinder periphery of distolateral place lock core 6 install in first runner and overlap 105, cover 105 is fixedly connected by cover 115 in the staple 117 and second runner in first runner, the first cup-shaped runner of having made 101 is installed in cover 105 outsides in first runner, first guide groove 102 is arranged on the rim of a cup end face of the first cup-shaped runner 101, the first cup-shaped runner 101 is positioned at the second cup-shaped runner, 111 inboards, its rim of a cup diameter needs less than the second cup-shaped runner 111, first stress point 103 is positioned at the inboard of the first cup-shaped runner 101, and power transmission point 104 is positioned at the outside of the first cup-shaped runner 101.Install and first stress point, the 103 corresponding pulling points 66 that also can act on first stress point 103 in lock core 6 outsides.All the other can be identical with embodiment 6.

In actual applications, can be as required be arranged to relative structure between the lock core in the present embodiment 6, the first pellet shot from a slingshot chute 61, first pellet shot from a slingshot 62, lock core cover 7, the second pellet shot from a slingshot chute 71, second pellet shot from a slingshot 72, tapered end shell 9, the 3rd pellet shot from a slingshot chute 91, the 3rd pellet shot from a slingshot 92 and lock core 6, lock core cover 7 and the tapered end shell 9 identical or embodiment 2 is identical with embodiment 1.

In actual applications, also can omit cover 105 in first runner described in the present embodiment as required, can the first cup-shaped runner 101 directly be installed in the outside of the lock core 6 of pulling point 66 1 sides, the cylinder periphery that is installed in lock core 6 with first round endoporus 126, the first cup-shaped runners 101 of lock core 6 cylinder periphery coupling by first round endoporus 126 is set at the bottom of 101 glasss of the described first cup-shaped runners.The 3rd jube 47 can be installed in the cylinder outside of lock core 6.

Embodiment 8

As shown in figure 16, among the figure, structure between lock core 6, the first pellet shot from a slingshot chute 61, first pellet shot from a slingshot 62, lock core cover 7, the second pellet shot from a slingshot chute 71, second pellet shot from a slingshot 72, tapered end shell 9, the 3rd pellet shot from a slingshot chute 91, the 3rd pellet shot from a slingshot 92 and lock core 6, lock core cover 7 and the tapered end shell 9 and installation can with identical or embodiment 3 or embodiment 5 among the embodiment 1 in identical, also can this be set as with embodiment 2 in identical.Present embodiment is as different from Example 5: in described first runner in cover 105 and second runner cover 115 can not contain the cover endoporus, in described first runner in cover 105 and second runner cover 115 be installed in the end face outside of lock core 6.Pulling point 66 is located at lock core 6 outsides apart from spring 237 outer ends of core retainer plate 7 one ends, and pulling point 66 also can be used as a strong point of spring 237.Be provided with in first runner outside the end face near pulling point 66 1 side chain cores 6 and overlap 105, cover 105 outsides are provided with the first cup-shaped runner 101 in first runner, are provided with the stress point 103 with pulling point 66 corresponding and mutual couplings on the first cup-shaped runner 101; Among Figure 16, an end face of the more close lock core cover 7 in the outside of the inboard at the bottom of first set cup-shaped runner 101 its glasss at the bottom of than its glass, first stress point 103 is located at the inboard of the first cup-shaped runner 101.Overlap 115 being provided with in second runner with a side at the bottom of 101 glasss of first stress point, the 103 non-homonymy first cup-shaped runners, from Figure 16 also as can be seen, first stress point 103 and the first cup-shaped runner 101 inboard homonymies, the interior cover 115 of second runner is positioned at the side at the bottom of first cup-shaped runner 101 outside cups, and cover 115 also is positioned at the outer distolateral of first runner cover 105 in second runner; In first runner in cover 105 and second runner cover 115 can interfix by rivet welding or staple 117, and by rivet welding or fixture 107 and door body or constitute the shell of this product or coupled parts 108 are fixedly connected.Cover 115 outsides are provided with the second cup-shaped runner 111 in second runner, on the second cup-shaped runner 111 rim of a cup end faces second guide groove 112 is arranged, and it is identical with the rim of a cup direction of the first cup-shaped runner 111, among Figure 16, one end face of the more close lock core cover 7 in the outside of the inboard at the bottom of second set cup-shaped runner 111 its glasss at the bottom of than its glass, the first cup-shaped runner 101 is positioned at the inboard of second cup-shaped runner 111 cups.Be provided with second stress point 113 in second cup-shaped runner 111 1 sides adjacent with the first cup-shaped runner 101, be provided with power transmission point 104 in first cup-shaped runner 101 1 sides corresponding with second stress point 113, among Figure 16, second stress point 113 is located at the inboard of the second cup-shaped runner 111, and power transmission point 114 is located at the outside of the first cup-shaped runner 101.In lock core 6 key 63 relative, be provided with key guide rod 231 with the first cup-shaped runner 101 or the second cup-shaped runner, 111 inboards.Lock core 6 cylinder periphery between key guide rod 231 and the first cup-shaped runner 101 or the second cup-shaped runner, 111 inboards are provided with and can allow the sliding hurdle 236 of key guide rod 231 rotational slides.Be connected with guide rod 232 on sliding hurdle 236, be connected with an end of location guide 238 on guide rod 232, the other end of location guide 238 is arranged in locating channel 96.Be provided with between sliding hurdle 236 and the first cup-shaped runner 101 or the second cup-shaped runner, 111 inboards and can promote the spring 237 that guide rod 232 and key guide rod 231 reset, figure medi-spring 237 is on the cylinder periphery of lock core 6 between cunning hurdle 236 and the pulling point 66.Be connected with an end of location guide 238 on guide rod 232, the other end of location guide 238 is arranged in the locating channel 96 that links to each other with tapered end shell 9, and locating channel 96 also can be arranged on the door body or constitute in the shell or coupled parts 108 of this product.All the other can be identical with embodiment 5.

In order to improve the tapered end anti-destructive ability of unblanking, on near the lock core cover 7 of sliding hurdle 236 and tapered end shell 9 end faces, cover pin-and-hole 70 and shell pin-and-hole 90 are set, cover pin-and-hole 70 is positioned on the end face of lock core cover 7, shell pin-and-hole 90 is positioned on the end face of tapered end shell 9, be provided with of the stop pin 22 that matches in cover pin-and-hole 70 and the shell pin-and-hole 90, the other end of stop pin 22 is fixedly connected with sliding hurdle 236.Cover pin-and-hole 70 and shell pin-and-hole 90 can communicate and also can not communicate, among Figure 16 for communicating; If cover pin-and-hole 70 does not communicate with shell pin-and-hole 90, need of the stop pin 22 that then matches divaricate, and can insert respectively in cover pin-and-hole 70 and the shell pin-and-hole 90.During use, when stop pin 22 enters cover pin-and-hole 70 and shell pin-and-hole 90 under guide rod 232 drives, tapered end can 9 with lock core cover 7 between have stop pin 22 to block posts, realize another locking; When stop pin 22 breaks away from cover pin-and-hole 70 with shell pin-and-hole 90 under guide rod 232 drives, can realize normally unblanking.On near the lock core cover 7 of sliding hurdle 236 and tapered end shell 9 end faces, cover pin-and-hole 70 and shell pin-and-hole 90 and stop pin 22 are set also applicable to embodiment 6.

Present embodiment is compared advantage with embodiment 5, be used for security door, at any time the clutch first cup-shaped runner 101 and the second cup-shaped runner 111 as required, make key guide rod 231 under the situation that need not dial, can abdicate occupied key slot 63, be convenient to the frequent needs of coming in and going out and going out for a long time to lock a door.

In actual applications, also cover 105 in first runner among present embodiment Figure 16 can be arranged to contain the first cover endoporus 125, and cover 105 in first runner is installed in (figure does not draw) on the cylinder periphery of lock core 6, what all the other can be with shown in Figure 16 is identical.

In actual applications, the first pellet shot from a slingshot chute 61, the second pellet shot from a slingshot chute 71, the 3rd pellet shot from a slingshot chute 91 between lock core 6 described in present embodiment and the embodiment 5 and lock core cover 7 and the tapered end shell 9, and that pairing first pellet shot from a slingshot 62, second pellet shot from a slingshot 72, the 3rd pellet shot from a slingshot 92, key 63 and relevant structure thereof all can be with described in embodiment 2 or the embodiment 6 is identical.Especially mentioned among the embodiment 6: the first pellet shot from a slingshot chute 61 of described lock core 6 is the annular pellet shot from a slingshot chute perpendicular to lock core 6 axis, first pellet shot from a slingshot 62 in the first pellet shot from a slingshot chute 61 is the pellet shot from a slingshot of a pair of arc sheet, should be to being provided with stage clip 69 between first pellet shot from a slingshot, 62 adjacent two end faces, should leave certain clearance between two other end face to first pellet shot from a slingshot 62, on every pair first pellet shot from a slingshot 62, be provided with groove 621, the first pellet shot from a slingshot chute, 61 outsides at lock core 6 are provided with lining 60, on lining 60 and lock core 6, also be provided with the chute 611 that communicates with the first pellet shot from a slingshot chute 61, described lock core cover 7 is located at the outside of village's cover 60, the second pellet shot from a slingshot chute 71 in the lock core cover 7 communicate with the first pellet shot from a slingshot chute 61 and with chute 611 corresponding couplings, described second pellet shot from a slingshot 72 can place chute 611 and pellet shot from a slingshot chute 71, the 3rd pellet shot from a slingshot chute 91 of described tapered end shell 9 inboards and the corresponding coupling in second pellet shot from a slingshot, 72 outer ends; Use it for present embodiment, can make present embodiment have stronger anti-technical opening function.

Embodiment 9

As shown in figure 17, among the figure, relative structure can be described identical with embodiment 6 between lock core 6, the first pellet shot from a slingshot chute 61, first pellet shot from a slingshot 62, lock core cover 7, the second pellet shot from a slingshot chute 71, second pellet shot from a slingshot 72, tapered end shell 9, the 3rd pellet shot from a slingshot chute 91, the 3rd pellet shot from a slingshot 92 and lock core 6, lock core cover 7 and the tapered end shell 9, key guide rod 231, sliding hurdle 236, guide rod 232, spring 237, making also can be identical with installation with embodiment 6.Present embodiment is as different from Example 6: the first cup-shaped runner 101 is directly installed on the cylinder periphery of lock core 6, be provided with first round endoporus 126 at the bottom of 101 glasss of the first cup-shaped runners, first round endoporus 126 mates with the cylinder periphery of lock core 6, and first round endoporus 126 directly is enclosed within on the lock core 6 cylinder periphery.The inboard end face than the more close lock core cover 7 in the outside at the bottom of its glass in the cup end of the first cup-shaped runner 101, stress point 103 is arranged on the inboard of the first cup-shaped runner 101.Lock core 6 outsides between at the bottom of 101 glasss of spring 237 and the first cup-shaped runners, be provided with pulling point 66 with stress point 103 corresponding and mutual couplings, pulling point 66 also can be used as the strong point of spring 237, also can be used for preventing simultaneously the jube of first cup-shaped runner 101 axial displacements.Overlap 115 being provided with in second runner with a side at the bottom of 101 glasss of first stress point, the 103 non-homonymy first cup-shaped runners, from Figure 17 also as can be seen, first stress point 103 and the first cup-shaped runner 101 inboard homonymies, the interior cover 115 of second runner is positioned at the side at the bottom of first cup-shaped runner 101 outside cups.Jube 137 can with second runner in the cover 115 integral manufacturings, also can separately make the back recombinant together, cover 115 outsides are provided with the second cup-shaped runner 111 in second runner, the second cup-shaped runner, 111 inboards are provided with stress point 113, are provided with power transmission point 104 in the first cup-shaped runner, 101 outsides corresponding with stress point 113.Cover 115 can be arranged to contain wheel endoporus 135 as required in second runner, and it is installed in the cylinder periphery of lock core 6; Cover 115 also can be arranged to not contain wheel endoporus 135 in second runner, and it is installed in the end face outside of lock core 6; Among Figure 17, contain wheel endoporus 135 in second runner in the cover 115, cover 115 is installed in the cylinder periphery of lock core 6 in second runner, and cover can adopt rivet welding or fixture 107 and door body or constitute the shell of this product or coupled parts 108 are fixedly connected in second runner.All the other can consult embodiment 6 or embodiment 8.

In the present embodiment, lock core 6, the first pellet shot from a slingshot chute 61 between lock core cover 7 and the tapered end shell 9, the second pellet shot from a slingshot chute 71 and the 3rd pellet shot from a slingshot chute 91, and first pellet shot from a slingshot 62, second pellet shot from a slingshot 72, the 3rd pellet shot from a slingshot 92, marble spring 93 is with described identical with embodiment 6 with the structure of its associated components, in actual applications, the first pellet shot from a slingshot chute 61 between lock core 6 and lock core cover 7 and the tapered end shell 9, the second pellet shot from a slingshot chute 71, the 3rd pellet shot from a slingshot chute 91, and pairing first pellet shot from a slingshot 62, second pellet shot from a slingshot 72, the 3rd pellet shot from a slingshot 92, key 63, and relative structure also can be with described in embodiment 1 or the embodiment 2 identical.

In actual applications, can as required present embodiment be re-established as: between first round endoporus 126 and lock core 6 cylinder periphery, set up in the runner that contains the first cover endoporus 125 and overlap 105.

In actual applications, can be as required, adopt the first cup-shaped runner 101 described in the present embodiment, embodiment 1 and Fig. 6 are re-established as not contain overlap 105 in first runner, embodiment 2 and Figure 10 be re-established as not contain overlap 105 in first runner, embodiment 3 and Figure 11 be re-established as not contain in first runner overlap 105.

In actual applications, can be as required cover 115 in second runner be changed to be made as and do not contain the wheel endoporus, cover 115 in second runner is installed in the end face outside of lock core 6.

Embodiment 10

As shown in figure 18, among the figure, relative structure is described identical with embodiment 6 between lock core 6, the first pellet shot from a slingshot chute 61, first pellet shot from a slingshot 62, lock core cover 7, the second pellet shot from a slingshot chute 71, second pellet shot from a slingshot 72, tapered end shell 9, the 3rd pellet shot from a slingshot chute 91, the 3rd pellet shot from a slingshot 92 and lock core 6, lock core cover 7 and the tapered end shell 9, and key guide rod 231, sliding hurdle 236, guide rod 232, spring 237, making and installation can be identical with embodiment 5, embodiment 6 or embodiment 9.The installation of pulling point 66 can be identical with embodiment 9.Present embodiment is as different from Example 9: the described first cup-shaped runner 101 does not contain the wheel endoporus, the first cup-shaped runner 101 is installed in the end face outside of lock core 6, the cup end at the described first cup-shaped runner 101 is provided with rotating shaft 19, described rotating shaft 19 can be cylindric circular or spherical, rotating shaft 19 can be fixedly connected with the end face of lock core 6, also can or constitute the shell of this product or coupled parts 108 are fixedly connected with the door body.Overlap 115 being provided with in second runner with a side at the bottom of 101 glasss of first stress point, the 103 non-homonymy first cup-shaped runners, from Figure 18 also as can be seen, first stress point 103 and the first cup-shaped runner 101 inboard homonymies, the interior cover 115 of second runner is positioned at the side at the bottom of first cup-shaped runner 101 outside cups; Cover 115 can not contain the cover endoporus in described second runner, and cover 115 also is positioned at the end face outside apart from lock core 6 in second runner, and cover 115 can or constitute the shell of this product or coupled parts 108 are fixedly connected with the door body in second runner.Cover 115 outsides are provided with the second cup-shaped runner 111 in second runner, on the second cup-shaped runner 111 rim of a cup end faces second guide groove 112 is arranged, and it is identical with the rim of a cup direction of the first cup-shaped runner 111, be provided with second stress point 113 in second cup-shaped runner 111 1 sides adjacent, be provided with power transmission point 104 in first cup-shaped runner 101 1 sides corresponding with second stress point 113 with the first cup-shaped runner 101.All the other can be described referring to embodiment 6 and embodiment 9.

In actual applications, the first pellet shot from a slingshot chute 61, the second pellet shot from a slingshot chute 71 and the 3rd pellet shot from a slingshot chute 91 between lock core 6, lock core cover 7 and the tapered end shell 9, and first pellet shot from a slingshot 62, second pellet shot from a slingshot 72, the 3rd pellet shot from a slingshot 92, marble spring 93 and with the structure of its associated components, also can be with described in embodiment 1 or the embodiment 2 identical.

In real the application, also the cover 105 and first cup-shaped runner 101 in first runner among embodiment 4 and Figure 12 can be changed establish with alternative costs embodiment in contain the first cup-shaped runner 101 of rotating shaft 19.

In aforesaid embodiment, the related handle 65 and the connected mode of lock core 6 all can adopt as adjunction adapter sleeve 81 connections on panel 8 described in the embodiment 7.Existing safety cabinet, security door, lock pin hand are held in making that being connected of panel and handle technology and handle axle in the door lock and mounting process technology also can be used for handle 65 and lock core 6 among the present invention and the installation.

Be used for similar family expenses security door, open the door for ease of often coming in and going out, also the fixture 107 among aforesaid embodiment such as embodiment 5 or the embodiment 6 can be made into and only fix in second runner that cover 105 pivots in cover 115 and first runner, can not fix its axial displacement; Can adopt when needing and establish handle in addition, with cover 105 or key guide rod 231 in cover 115 and first runner in second runner overlap 105 in 115, first runner together with overlapping in sliding hurdle 236, guide rod 232, second runner, pulling point 66 outside axial translations, make key guide rod 231 under the situation that need not dial, can abdicate occupied key slot 63, be convenient to frequent discrepancy of user and unblank; When long, going out to need dialing to lock a door, can be again promote in key guide rod 231, sliding hurdle 236, guide rod 232, second runner that cover 105, pulling point 66 reset in cover 115, first runner, realize the unlocking function that dials with handle.

More than be part embodiment of the present invention, be not that limited explanation is done in design of the present invention, can come to determine the position and the direction of the installation of first cup-shaped runner 101, the second cup-shaped runner 111 in actual the use as required, its shape can also be truncated cone-shaped or approximate circle taper.Determine the position of first stress point 103, second stress point 113, pulling point 66 by needs, also can come as required to determine key in the lock core 6 63 whether with the communicating of lock core 6 certain end face.The tapered end technology that the rotation of all existing employing lock core covers is unblanked needs only the cup-shaped runner of lock core outside installation that overlaps an end at lock core, makes its design with rotary dialing of the present invention and unlocking function, also all belongs to technology category of the present invention.

Claims (10)

1. tapered end that has the password dial, comprise lock core (6), lock core cover (7), tapered end shell (9), the first cup-shaped runner (101), described lock core (6) is cylindric, the first pellet shot from a slingshot chute (61) is arranged in the lock core (6), in the first pellet shot from a slingshot chute (61) first pellet shot from a slingshot (62) is arranged, also has key (63) in the lock core (6) with the first pellet shot from a slingshot chute (61) and first pellet shot from a slingshot (62) coupling, there is lock core cover (7) in the first pellet shot from a slingshot chute (61) outside at lock core, the second pellet shot from a slingshot chute (71) that corresponding coupling with the first pellet shot from a slingshot chute (61) is arranged in lock core cover (7), in the second pellet shot from a slingshot chute (71) second pellet shot from a slingshot (72) is arranged, in the outside of lock core cover (7) tapered end shell (9) is arranged, the 3rd pellet shot from a slingshot chute (91) that corresponding coupling with the second pellet shot from a slingshot chute (71) is arranged in the tapered end shell (9), the 3rd pellet shot from a slingshot (92) and marble spring (93) are arranged in the 3rd pellet shot from a slingshot chute (91), be provided with the point (73) of unblanking in the outside of lock core cover (7), the outside at lock core cover (7) one end lock cores (6) is provided with pulling point (66), it is characterized in that: lock core (6) outside in pulling point (66) one sides is provided with the first cup-shaped runner (101), first guide groove (102) is arranged on the rim of a cup end face of the first cup-shaped runner (101), on the first cup-shaped runner (101), also be provided with first stress point (103) corresponding with pulling point (66).

2. a kind of tapered end that has the password dial as claimed in claim 1, it is characterized in that: the first pellet shot from a slingshot chute (61) of described lock core (6) is for cylindrical, and communicate with key (63), first pellet shot from a slingshot (62) in the first pellet shot from a slingshot chute (61) is the cylindricality pellet shot from a slingshot, the second pellet shot from a slingshot chute (71) of described lock core cover (7) is cylindrical, second pellet shot from a slingshot (72) in the second pellet shot from a slingshot chute (71) is the cylindricality pellet shot from a slingshot, the 3rd pellet shot from a slingshot chute (91) of described tapered end shell (9) is cylindrical, and the 3rd pellet shot from a slingshot (92) in the 3rd pellet shot from a slingshot chute (91) is the cylindricality pellet shot from a slingshot.

3. a kind of tapered end that has the password dial as claimed in claim 1, it is characterized in that: the first pellet shot from a slingshot chute (61) of described lock core (6) is for cylindrical, first pellet shot from a slingshot (62) in the first pellet shot from a slingshot chute (61) is for containing the pellet shot from a slingshot of magnetic polarity, key (63) can communicate with the first pellet shot from a slingshot chute (61) or be obstructed, the second pellet shot from a slingshot chute (71) of described lock core cover (7) is cylindrical, the cross section of the second pellet shot from a slingshot chute (71) is less than the cross section of first pellet shot from a slingshot (62), second pellet shot from a slingshot (72) in the second pellet shot from a slingshot chute (71) is the cylindricality pellet shot from a slingshot, the 3rd pellet shot from a slingshot chute (91) of described tapered end shell (9) is cylindrical, and the 3rd pellet shot from a slingshot (92) in the 3rd pellet shot from a slingshot chute (91) is the cylindricality pellet shot from a slingshot.

4. a kind of tapered end that has the password dial as claimed in claim 1, it is characterized in that: the first pellet shot from a slingshot chute (61) of described lock core (6) is the annular pellet shot from a slingshot chute perpendicular to lock core (6) axis, first pellet shot from a slingshot (62) in the first pellet shot from a slingshot chute (61) is the pellet shot from a slingshot of a pair of arc sheet, should be to being provided with stage clip (69) between adjacent two end faces of first pellet shot from a slingshot (62), should leave certain clearance between two other end face to first pellet shot from a slingshot (62), on every pair first pellet shot from a slingshot (62), be provided with groove (621), the first pellet shot from a slingshot chute (61) outside at lock core (6) is provided with lining (60), on lining (60) and lock core (6), also be provided with the chute (611) that communicates with the first pellet shot from a slingshot chute (61), described lock core cover (7) is located at the outside of village's cover (60), the second pellet shot from a slingshot chute (71) that corresponding coupling with chute (611) is arranged in lock core cover (7), described second pellet shot from a slingshot (72) can place the chute (611) and the second pellet shot from a slingshot chute (71), the 3rd pellet shot from a slingshot chute (91) and the corresponding coupling in second pellet shot from a slingshot (72) outer end that described tapered end shell (9) is inboard.

5. as claim 1 or 2 or 3 or 4 described a kind of tapered ends that have the password dial, it is characterized in that: the described first cup-shaped runner (101) is installed in the cylinder periphery of lock core (6), the cup end at the first cup-shaped runner (101) is provided with first round endoporus (126), and the first round endoporus (126) of the first cup-shaped runner (101) is enclosed on lock core (6) the cylinder periphery; The perhaps described first cup-shaped runner (101) is installed in the cylinder periphery of lock core (6), the cup end at the first cup-shaped runner (101) is provided with first round endoporus (126), be provided with cover (105) in first runner that contains the first cover endoporus (125) in first round endoporus (126), first of cover (105) the cover endoporus (125) is enclosed on lock core (6) the cylinder periphery in first runner.

6. a kind of tapered end that has the password dial as claimed in claim 5, it is characterized in that: be provided with cover (115) in second runner with the non-homonymy first cup-shaped runner (101) cup of described stress point (103) end one side chain core (6) outside, cover (115) outside is provided with the second cup-shaped runner (111) in second runner, the second cup-shaped runner (111) is identical with the rim of a cup direction of the first cup-shaped runner (101), second guide groove (112) is arranged on the rim of a cup end face of the second cup-shaped runner (111), be provided with second stress point (113) in second cup-shaped runner (111) one sides adjacent with the first cup-shaped runner (101), be provided with power transmission point (104) in first cup-shaped runner (101) one sides corresponding with second stress point (113), cover (115) can be by riveting in the cover (105) or second runner in first runner, weldering or fixture (107) and tapered end shell (9) or with the door body or constitute the shell of this product or coupled parts (108) are fixedly connected.

7. a kind of tapered end that has the password dial as claimed in claim 6, it is characterized in that: an end face of the outside more close lock core cover (7) of the inboard at the bottom of described first its glass of cup-shaped runner (101) at the bottom of than its glass, one end face of the outside more close lock core cover (7) of the inboard at the bottom of described second its glass of cup-shaped runner (111) at the bottom of than its glass, in lock core (6) key (63) relative, be provided with key guide rod (231) with the first cup-shaped runner (101) or the second cup-shaped runner (111) inboard, lock core (6) cylinder periphery between key guide rod (231) and the first cup-shaped runner (101) or second cup-shaped runner (111) inboard is provided with sliding hurdle (236), on sliding hurdle (236), be connected with guide rod (232), on guide rod (232), be connected with an end of location guide (238), the other end of location guide (238) is arranged in locating channel (96), is provided with spring (237) between glass end of sliding hurdle (236) and the first cup-shaped runner (101) or the second cup-shaped runner (111).

8. as claim 1 or 2 or 3 or 4 described a kind of tapered ends that have the password dial, it is characterized in that: the described first cup-shaped runner (101) is installed in the end face outside of lock core (6), the cup end at the first cup-shaped runner (101) is provided with first round endoporus (126), be provided with cover (105) in first runner in first round endoporus (126), cover (105) is installed in the end face outside of lock core (6) in first runner; The perhaps described first cup-shaped runner (101) is installed in the end face outside of lock core (6), the cup end at the first cup-shaped runner (101) is provided with rotating shaft (19), rotating shaft (19) can be fixedly connected with the end face of lock core (6), also can or constitute the shell of this product or coupled parts (108) are fixedly connected with the door body.

9. a kind of tapered end that has the password dial as claimed in claim 8, it is characterized in that: be provided with cover (115) in second runner with the non-homonymy first cup-shaped runner (101) cup of described stress point (103) end one side, cover (115) outside is provided with the second cup-shaped runner (111) in second runner, the second cup-shaped runner (111) is identical with the rim of a cup direction of the first cup-shaped runner (101), second guide groove (112) is arranged on the rim of a cup end face of the second cup-shaped runner (111), be provided with second stress point (113) in second cup-shaped runner (111) one sides adjacent with the first cup-shaped runner (101), be provided with power transmission point (104) in first cup-shaped runner (101) one sides corresponding with second stress point (113), cover (115) can be by riveting in the cover (105) or second runner in first runner, weldering or fixture (107) and tapered end shell (9) or with the door body or constitute the shell of this product or coupled parts (108) are fixedly connected.

10. a kind of tapered end that has the password dial as claimed in claim 9, it is characterized in that: an end face of the outside more close lock core cover (7) of the inboard at the bottom of described first its glass of cup-shaped runner (101) at the bottom of than its glass, one end face of the outside more close lock core cover (7) of the inboard at the bottom of described second its glass of cup-shaped runner (111) at the bottom of than its glass, in lock core (6) key (63) relative, be provided with key guide rod (231) with the first cup-shaped runner (101) or the second cup-shaped runner (111) inboard, lock core (6) cylinder periphery between key guide rod (231) and the first cup-shaped runner (101) or second cup-shaped runner (111) inboard is provided with sliding hurdle (236), on sliding hurdle (236), be connected with guide rod (232), on guide rod (232), be connected with an end of location guide (238), the other end of location guide (238) is arranged in locating channel (96), is provided with spring (237) between glass end of sliding hurdle (236) and the first cup-shaped runner (101) or the second cup-shaped runner (111).

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