CN206917425U - Magnetic control lock - Google Patents
Magnetic control lock Download PDFInfo
- Publication number
- CN206917425U CN206917425U CN201720680195.8U CN201720680195U CN206917425U CN 206917425 U CN206917425 U CN 206917425U CN 201720680195 U CN201720680195 U CN 201720680195U CN 206917425 U CN206917425 U CN 206917425U
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- China
- Prior art keywords
- lock
- magnetic
- magnetic part
- pellet
- gall
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
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Abstract
The utility model magnetic control lock is related to a kind of lockset, and its purpose is to provide the magnetic control lock that a kind of anti-theft is high, barrier propterty is good.The utility model magnetic control lock includes tripper, lock housing and the lock core being arranged in lock housing, and the first magnetic part is provided with the tripper;The second magnetic part is provided with the lock core, second magnetic part has unlocked position and locked position of coupler, and when second magnetic part is located at unlocked position, the magnetic control lock is in released state, when second magnetic part is located at locked position of coupler, the magnetic control lock is in blocking;Magnetic action power is produced between first magnetic part and second magnetic part, when first magnetic part rotates along lock core axial direction, second magnetic part can be driven to turn to unlocked position along lock core axial direction jointly.
Description
Technical field
A kind of lockset is the utility model is related to, more particularly to a kind of magnetic control lock.
Background technology
Compared with mechanical lock and electronic password lock, magnetic control lock has that more preferable confidentiality and reliability are higher, but existing
Magnetic control lock mostly inhaled using magnet steel or the axial movement mode that pushes away realizes open locking.This mode is highly susceptible to outer masterpiece
With being cracked when such as being tapped, therefore theftproof performance is poor.
Utility model content
Based on this, the technical problems to be solved in the utility model is to provide the magnetic control that a kind of anti-theft is high, barrier propterty is good
Lock.
A kind of magnetic control lock, including tripper, lock housing and the lock core being arranged in lock housing, it is provided with the tripper
First magnetic part;The second magnetic part is provided with the lock core, second magnetic part has unlocked position and locking
Position, when second magnetic part is located at unlocked position, the magnetic control lock is in released state, the second magnetic part position
When locked position of coupler, the magnetic control lock is in blocking;Produced between first magnetic part and second magnetic part
Magnetisation active force, when first magnetic part rotates along lock core axial direction, second magnetic part can be driven
Jointly unlocked position is turned to along lock core axial direction.
In one of the embodiments, first magnetic part be arranged in parallel with second magnetic part, and described
Opposite polarity when one magnetic part is relative with the second magnetic part, both form magnetic loop, when first magnetic part rotates
When, the magnetic line of force finds distortion change, to the couple of one rotation of the second magnetic part, drives second magnetic part to turn
It is dynamic.
In one of the embodiments, second magnetic part is set perpendicular to the axial direction of lock core.
In one of the embodiments, when first magnetic part rotates along lock core axial direction, first magnetic
Property part and the second magnetic part relative spacing set.
In one of the embodiments, first magnetic part and second magnetic part are magnet steel.
In one of the embodiments, the lock core includes locking assembly and lock gall, and the locking assembly is arranged on described
The axial rotation of the lock gall can be limited in lock gall, second magnetic part is arranged in the locking assembly;Described
When two magnetic parts turn to locked position of coupler, the locking assembly can be made to limit the rotation of the lock gall, make the magnetic control lock
In blocking;When second magnetic part turns to unlocked position, the locking assembly can be made to release to the lock
The rotation limitation of courage, makes the magnetic control lock be in released state.
In one of the embodiments, the locking assembly includes latch shaft and lockweight, and the latch shaft, which rotates, to be set
In the lock gall, second magnetic part is arranged in the latch shaft;Described lockweight one end is stretched on lock-shell lining
Groove, the other end abuts with latch shaft, for limiting the axial rotation of the lock gall;Band when second magnetic part rotates
The dynamic latch shaft rotates, and is limited by rotation of the latch shaft unlocking pin to the lock gall.
In one of the embodiments, the latch shaft has limiting section;During blocking, the limiting section closes with described
One end of lock pin is abutted, and the other end is stretched out in the lock gall to groove, and the limiting section limits the motion of the lockweight, and then
Limit the axial rotation of the lock gall;During released state, the limiting section releases the motion limitation to the lockweight after rotating,
And then release the rotation limitation to lock gall.
In one of the embodiments, the limiting section is arranged on the end face of the latch shaft, and the limiting section is half
Cylinder.
In one of the embodiments, the locking assembly also includes return springs, resets and turns for the latch shaft
Back locking position is moved, arc groove is provided with the latch shaft outer peripheral face, arc groove is also correspondingly arranged on the lock gall,
Collectively form the arc accommodating cavity of return springs.
In one of the embodiments, the tripper includes unblock rotating shaft and tripper housing, and the unblock turns
Axle is rotatably arranged in the tripper housing, and first magnetic part is arranged in the unblock rotating shaft.
In one of the embodiments, tripper also includes drive device and the code-reading apparatus being connected, the driving
Device is used to drive the unblock axis of rotation, and lock core chip is provided with the lock core, and the code-reading apparatus is used to read institute
The coding information of lock core chip is stated, and controls the drive device to act according to the coding information.
In one of the embodiments, the magnetic control lock also includes mechanical release structure, and the mechanical release structure includes
Pellet and the solution lock section coordinated with pellet;The pellet is arranged in the lock gall, for limiting axial direction of the lock gall in lock housing
Rotate;The solution lock section is arranged on the tripper, for releasing limitation of the pellet to lock gall axial rotation.
In one of the embodiments, the lock gall includes being mutually butted the first lock gall and the second lock gall, accordingly, described
Pellet includes the first pellet and the second pellet being mutually butted, and first pellet, the second pellet are separately positioned on described first
In lock gall, the second lock gall;First lock gall is fixedly installed in the lock housing;During blocking, second pellet stretches into
In first lock gall, the axial rotation of the first lock gall is limited;During released state, the solution lock section on the tripper passes through institute
State the first pellet second pellet is pressed into second lock gall, release the second pellet and the axial rotation of the first lock gall is limited
System.
In one of the embodiments, the first lock gall end set has the unblock chamber for docking the solution lock section,
The one end of first pellet from second pellet farther out is stretched into the unblock chamber, and the solution lock section can extend into the solution
Intracavitary is locked, promotes first pellet that second pellet is pressed into second lock gall.
In one of the embodiments, the unblock chamber on first lock gall is annular cavity, on the tripper
Solution lock section be correspondingly arranged as cylinder ring, be provided with the cylinder ring and corresponding with the pellet solve lock crossbeam.
In one of the embodiments, first magnetic part is arranged in parallel with second magnetic part.
Above-mentioned magnetic control lock, pass through the first magnetic part and the second magnetic part set respectively in lock core and tripper
Magnetic loop is formed, using the rotation of the first magnetic part set in tripper, is turned with the second magnetic part in movable lock core
It is dynamic, and then unblock or locking are realized by rotary motion, solve magnetic control lock easily by external force collision accidental unlocking, theftproof performance difference
Problem.
Further, lock core uses designs without key channel formula, avoids and lock core progress technology is opened using key channel
Open, while also effective dust, solve the problems, such as lock core barrier propterty difference.
Brief description of the drawings
Fig. 1 is the schematic appearance of the utility model magnetic control lock;
Fig. 2 is the side cutaway view of the utility model magnetic control lock;
Fig. 3 is Fig. 2 magnified partial view;
Fig. 4 is the elevation cross-sectional view of the utility model magnetic control lock;
Fig. 5 is the structural representation of the lock core of the utility model magnetic control lock;
Fig. 6 is the schematic diagram of the mechanical release structure of the utility model magnetic control lock;
Fig. 7 is the structural representation of the latch shaft of the utility model magnetic control lock;
Fig. 8 is the dimensional structure diagram of the tripper of the utility model magnetic control lock;
Fig. 9 is the profile of the tripper of the utility model magnetic control lock
Figure 10 is the released state schematic diagram of the utility model magnetic control lock;
Figure 11 is the blocking schematic diagram of the utility model magnetic control lock;
Description of reference numerals:
Tripper 100;Tripper housing 110;Unlock rotating shaft 120;Drive device 130;Solution lock section 140;Unlock recessed
Groove 141;
Lock housing 200;
Lock core 300;Latch shaft 310;Limiting section 311;Arc groove 312;Lockweight 320;Back-moving spring 321;Lock gall
330;First lock gall 331;Second lock gall 332;Return springs 340;First pellet 351;Second pellet 352;Unlock chamber 360;
First magnetic part 410;Second magnetic part 420.
Embodiment
Specific embodiment of the present utility model is described in detail below with reference to Figure of description, but this practicality
The new multitude of different ways that can be defined by the claims and cover is implemented.
Reference picture 1, the magnetic control lock in one embodiment of the present utility model, including tripper 100, lock housing 200 and set
Put the lock core 300 in lock housing 200.As shown in Figures 2 and 3, the first magnetic part 410 is provided with tripper 100.Lock core
The second magnetic part 420 is provided with 300, the second magnetic part 420 has unlocked position and locked position of coupler.Second magnetic part
420 when being located at unlocked position, and magnetic control lock is in released state, and when the second magnetic part 420 is located at locked position of coupler, magnetic control lock is in
Blocking;Magnetic action power, specifically, two magnetic portions are produced between first magnetic part 410 and the second magnetic part 420
The opposite polarity of part, can in the presence of magnetic force is attracted common rotation, when the first magnetic part 410 is along the axial direction of lock core 300
During rotation, the second magnetic part 420 can be driven to turn to unlocked position along the axial direction of lock core 300.
Above-mentioned magnetic control lock, returned by formation magnetic between setting magnetic part respectively in lock core 300 and tripper 100
Road, using the rotation of the first magnetic part 410 set in tripper 100, with the second magnetic part in movable lock core 300
420 rotate, and then by rotary motion realize unlock, solve magnetic control lock easily by external force collision accidental unlocking, theftproof performance difference
Problem.
Specifically, need to form magnetic loop between above-mentioned the first magnetic part 410 and the second magnetic part 420, preferably
For magnet steel, or other permanent magnets.First magnetic part 410 is preferably that identical is cylindric with the second magnetic part 420.
After tripper inserts lock core, the first magnetic part 410 is arranged in parallel with the second magnetic part 420.Specific second magnetic portion
Part 420 is set perpendicular to the axial direction of lock core, and the first magnetic part 410 is set perpendicular to the axial direction of tripper.The
Opposite polarity when one magnetic part is relative with the second magnetic part, both form magnetic loop, when the first magnetic part rotates, magnetic
The line of force finds distortion change, to the couple of one rotation of the second magnetic part, drives the second magnetic part to rotate.Preferably,
One magnetic part 410 and the second magnetic part 420 are just relative, and the relative area in front is maximum, the magnetic action that magnetic loop is formed
Power is maximum, it is ensured that magnetic control lock reliably unlocks.In other equivalent or alternative means, two magnetic parts might not parallel cloth
Put, if two magnetic parts can be formed magnetic loop and can in the presence of magnetic force is attracted common rotation, can be achieved with this practicality
The purpose of novel means.
First magnetic part 410 and the second magnetic part 420 have certain intervals, are not directly contacted with.Spacing distance is smaller,
The magnetic action power of magnetic loop is bigger.The spacing distance of two magnetic parts determines the density of the magnetic line of force, and distance is more remote, and the magnetic line of force is got over
Dredge, magnetic action power is smaller, therefore in the case where ensureing structural strength, should try one's best makes between the two every less distance.First
The magnetic part 420 of magnetic part 410 and second keeps the magnetic force that attracts each other under the spacing case, and in the effect of the magnetic force
Under realize common axial rotation.
Because the first magnetic part 410 and the second magnetic part 420 are separately positioned in tripper 100 and lock core 300
Portion, authorize principle to be difficult to be found, enhance the anti-theft of magnetic control lock.
As shown in Figure 4 and Figure 5, lock core 300 includes locking assembly and lock gall 330, and locking assembly is arranged on energy in lock gall 330
The axial rotation of lock gall 330 is enough limited, the second magnetic part 420 is arranged in locking assembly.Second magnetic part 420 turns to
During locked position of coupler, the rotation of locking assembly limitation lock gall 330 can be made, magnetic control lock is in blocking.Second magnetic part
420 when turning to unlocked position, and locking assembly can be made to release the rotation limitation to lock gall 330, magnetic control lock is in unblock shape
State.
Specifically, locking assembly includes latch shaft 310 and lockweight 320, and latch shaft 310 is rotatably arranged in lock gall 330,
Second magnetic part 420 is arranged in latch shaft 310 perpendicular to latch shaft axial direction.Lockweight 320 supports with latch shaft 310
Connect, for limiting the axial rotation of lock gall 330.Drive latch shaft 310 to rotate when second magnetic part 420 rotates, pass through locking
Rotation limitation of the unlocking pin 320 of axle 310 to lock gall 330.
Wherein, latch shaft 310 has limiting section 311.Limiting section 311 is arranged on the end face of latch shaft 310.Such as Fig. 7, tool
Body, limiting section 311 is semicylinder.Lockweight 320 is vertically arranged with latch shaft 310.During blocking, limiting section 311
Side arc surface is abutted with one end of lockweight 320, and the other end of lockweight 320 is stretched out on lock gall 330 to the inwall of lock housing 200
In groove, limiting section 311 limits the motion of lockweight 320, and then limits the axial rotation of lock gall 330.During released state, locking
Axle 310 turns to unlocked position, i.e. the arc surface of limiting section 311 is relative with lockweight 320, releases the motion to lockweight 320
Limitation, and then the rotation limitation to lock gall 330 is released, when unlocked, the end of lockweight 320 can now be retracted to lock gall
In 330, unblock purpose is realized.Further, back-moving spring 321 is arranged with lockweight 320, for the lockweight in locking
320 automatically reset.
Further, as shown in fig. 6, locking assembly also includes return springs 340, reset and rotate for latch shaft 310
Back locking position.Return springs 340 are preferably spring.Such as Fig. 7, arc groove 312 is provided with the outer peripheral face of latch shaft 310,
Arc groove is also correspondingly arranged on lock gall 330, collectively forms the arc accommodating cavity of return springs 340.In tripper 100
When solving the rotation of lock pin 300, the elastic compression in arc accommodating cavity of return springs 340.It is multiple after the extraction of tripper 100
Position elastic component 340 resets latch shaft 310 and rotates back to locked position of coupler under elastic force effect.Lock core 300 can set two or more
Arc accommodating cavity, be arranged in correspondence with more than two return springs 340.
As shown in figure 9, tripper 100 includes unblock rotating shaft 120 and tripper housing 110, unblock rotating shaft 120 rotates
It is arranged in tripper housing 110, the first magnetic part 410 is arranged on unblock rotating shaft perpendicular to the axial direction of unblock rotating shaft
In 120.When tripper 100 inserts lock core, the first magnetic part 410 and level of the second magnetic part 420 is oppositely arranged and pole
Property on the contrary, and between the two by tripper 100 unblock the end of rotating shaft 120 and lock core 300 the end interval of latch shaft 310,
Under the spacing case, the magnetic force that attracts each other is kept, and being capable of common axial rotation under the active force of the magnetic force.Further
Ground, tripper 100 also include the drive device 130 and code-reading apparatus that are arranged on tripper housing 110 and are connected (not
Show).Drive device 130 can be motor etc..Drive device 130 is connected with unblock rotating shaft 120, and rotating shaft is unlocked for driving
120 rotate.The chip of lock core 300 is provided with lock core 300, code-reading apparatus is used for the coding information for reading the chip of lock core 300, and root
Acted according to coding information control drive device 130.When coding information is correct, driving 120 turns of the rotating shaft of unblock of drive device 130
It is dynamic, it is unlocked operation.
Magnetic control lock further comprises mechanical release structure.As shown in figure 4, specifically, mechanical release structure includes bullet
Son and the solution lock section 140 coordinated with pellet.Pellet is arranged in lock gall 330, for limiting axle of the lock gall 330 in lock housing 200
To rotation.Solution lock section 140 is arranged on tripper 100, for releasing limitation of the pellet to the axial rotation of lock gall 330.
Wherein, lock gall 330 includes being mutually butted the first lock gall 331 and the second lock gall 332, and accordingly, pellet includes mutual
The first pellet 351 and the second pellet 352 of docking.First pellet 351, the second pellet 352 be separately positioned on the first lock gall 331,
In second lock gall 332.First lock gall 331 is fixedly installed in lock housing 200.During blocking, the second pellet 352 stretches into the first lock
In courage 331, the axial rotation of the first lock gall 331 is limited.During released state, the solution lock section 140 on tripper 100 passes through first
Second pellet 352 is pressed into the second lock gall 332 by pellet 351, releases axial rotation of second pellet 352 to the first lock gall 331
Limitation.
Specifically, as Fig. 6, the end set of the first lock gall 331 have the unblock chamber 360 for docking solution lock section 140, the first bullet
Sub 351 one end from the second pellet 352 farther out is stretched into unblock chamber 360, and solution lock section 140 can extend into unblock chamber 360, promote
Second pellet 352 is pressed into the second lock gall 332 by the first pellet 351, releases axial direction of second pellet 352 to the first lock gall 331
Rotate limitation.
Specifically, the unblock chamber 360 on the first lock gall 331 is annular cavity, the solution lock section 140 on tripper 100
It is correspondingly arranged as cylinder ring.Coordinate unblock in cylinder ring insertion annular cavity type body, as shown in figure 8, the top of cylinder ring set with
The solution lock crossbeam 141 that pellet coordinates.Above-mentioned lock core 300 designs using without key channel formula, has dustproof construction, sand and dust or different
Thing is not easy to block lock core 300 in lock core 300, will not lead to not unlock, solve the problems, such as the barrier propterty difference of lock core 300.
The operation principle of above-mentioned magnetic control lock is as follows:
Released state:As shown in Figure 10, when tripper 100 docks with lock core 300, solution lock crossbeam 141 coordinates with pellet,
Release the limitation to lock gall 330.If tripper 100 reads the coding information of the chip of lock core 300, chip signal is correct, unblock
Drive device 130 in device 100 drives unblock rotating shaft 120 to rotate, because the first magnetic part 410 in unblock rotating shaft 120 with
The magnetic loop that the second magnetic part 420 in lock core 300 is formed, after the concomitant rotation of latch shaft 310 to unlocked position, now lock gall
Lockweight 320 can be retracted in lock gall 330 during 330 rotation, relieved the rotation limitation to lock gall 330, realized unlocking function.
Blocking:As shown in figure 11, after tripper 100 is transferred to, in the presence of return springs 340, locking
Axle 310 rotates return, and lockweight 320 ejects lock gall 330 by its back-moving spring 321, rotated so as to limit lock gall 330, realization is closed
Lock function.
The utility model magnetic control lock, magnetic loop, solution are formed by two magnetic parts in tripper 100 and lock core 300
Lock rotating shaft 120 and rotate drive one magnetic part rotation, another magnetic part axial-rotation is driven under magnetic force sucking action, then
The axial rotation of latch shaft 310 is driven, improves the anti-theft effect of magnetic control lock core 300.Lock core 300 is used and set without key channel formula simultaneously
Meter, avoid using key channel to lock core progresss technology unlatching, while dust-proof, solve that the barrier propterty of lock core 300 is poor to ask
Topic.
Embodiment described above only expresses several embodiments of the present utility model, and its description is more specific and detailed,
But therefore it can not be interpreted as the limitation to the utility model patent scope.It should be pointed out that for the common of this area
For technical staff, without departing from the concept of the premise utility, various modifications and improvements can be made, these all belong to
In the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.
Claims (16)
1. a kind of magnetic control lock, including tripper, lock housing and the lock core being arranged in lock housing, it is characterised in that the unblock dress
The first magnetic part is provided with putting;The second magnetic part is provided with the lock core, second magnetic part has unblock
Position and locked position of coupler, when second magnetic part is located at unlocked position, the magnetic control lock is in released state, and described second
When magnetic part is located at locked position of coupler, the magnetic control lock is in blocking;First magnetic part and second magnetic
Magnetic action power is produced between part, when first magnetic part rotates along lock core axial direction, described the can be driven
Two magnetic parts turn to unlocked position along lock core axial direction jointly.
2. magnetic control lock according to claim 1, it is characterised in that first magnetic part and second magnetic part
It is arranged in parallel, opposite polarity when first magnetic part is relative with the second magnetic part, both form magnetic loop, when described
When one magnetic part rotates, the magnetic line of force finds distortion change, to the couple of second magnetic part, one rotation, described in drive
Second magnetic part rotates.
3. magnetic control lock according to claim 2, it is characterised in that second magnetic part is perpendicular to the axial direction side of lock core
To setting.
4. magnetic control lock according to claim 3, it is characterised in that when first magnetic part turns along lock core axial direction
When dynamic, first magnetic part is set with the second magnetic part relative spacing.
5. according to any described magnetic control locks of claim 1-4, it is characterised in that first magnetic part and second magnetic
Property part is magnet steel.
6. magnetic control lock according to claim 1, it is characterised in that the lock core includes locking assembly and lock gall, described to close
Lock set is arranged on the axial rotation that the lock gall can be limited in the lock gall, and second magnetic part is arranged on described close
In lock set;When second magnetic part turns to locked position of coupler, the locking assembly can be made to limit turning for the lock gall
It is dynamic, the magnetic control lock is in blocking;When second magnetic part turns to unlocked position, the locking group can be made
Part releases the rotation limitation to the lock gall, the magnetic control lock is in released state.
7. magnetic control lock according to claim 6, it is characterised in that the locking assembly includes latch shaft and lockweight, institute
State latch shaft to be rotatably arranged in the lock gall, second magnetic part is arranged in the latch shaft;The lockweight one
The groove stretched on lock-shell lining is held, the other end abuts with latch shaft, for limiting the axial rotation of the lock gall;Described second
Magnetic part drives the latch shaft to rotate when rotating, limited by rotation of the latch shaft unlocking pin to the lock gall
System.
8. magnetic control lock according to claim 7, it is characterised in that the latch shaft has limiting section;During blocking, institute
One end that limiting section is stated with the lockweight is abutted, and the other end is stretched out in the lock gall to groove, described in the limiting section limitation
The motion of lockweight, and then limit the axial rotation of the lock gall;During released state, the limiting section is released to described after rotating
The motion limitation of lockweight, and then release the rotation limitation to lock gall.
9. magnetic control lock according to claim 8, it is characterised in that the limiting section is arranged on the end face of the latch shaft
On, the limiting section is semicylinder.
10. magnetic control lock according to claim 7, it is characterised in that the locking assembly also includes return springs, is used for
The latch shaft, which resets, rotates back to locked position of coupler, is provided with arc groove on the latch shaft outer peripheral face, also right on the lock gall
Arc groove should be provided with, collectively forms the arc accommodating cavity of return springs.
11. magnetic control lock according to claim 1, it is characterised in that the tripper includes unblock rotating shaft and unblock fills
Housing is put, the unblock axis of rotation is arranged in the tripper housing, and first magnetic part is arranged on the solution
Lock in rotating shaft.
12. magnetic control lock according to claim 11, it is characterised in that tripper also include the drive device that is connected and
Code-reading apparatus, the drive device are used to drive the unblock axis of rotation, and lock core chip, the reading are provided with the lock core
Code device is used for the coding information for reading the lock core chip, and controls the drive device to act according to the coding information.
13. magnetic control lock according to claim 6, it is characterised in that the magnetic control lock also includes mechanical release structure, described
Mechanical release structure includes pellet and the solution lock section coordinated with pellet;The pellet is arranged in the lock gall, for limiting lock
Axial rotation of the courage in lock housing;The solution lock section is arranged on the tripper, for releasing the pellet to lock gall axle
To the limitation of rotation.
14. magnetic control lock according to claim 13, it is characterised in that the lock gall includes being mutually butted the first lock gall and the
Two lock galls, accordingly, the pellet include the first pellet and the second pellet being mutually butted, first pellet, the second pellet
It is separately positioned on first lock gall, in the second lock gall;First lock gall is fixedly installed in the lock housing;Blocking
When, second pellet is stretched into first lock gall, limits the axial rotation of the first lock gall;During released state, the unblock
Second pellet is pressed into second lock gall by the solution lock section on device by first pellet, releases the second pellet pair
The axial rotation limitation of first lock gall.
15. magnetic control lock according to claim 14, it is characterised in that the first lock gall end set has for docking institute
The unblock chamber of solution lock section is stated, the one end of first pellet from second pellet farther out is stretched into the unblock chamber, the solution
Lock section can extend into the unblock intracavitary, promote first pellet that second pellet is pressed into second lock gall.
16. magnetic control lock according to claim 15, it is characterised in that the unblock chamber on first lock gall is annular cavity type
Body, the solution lock section on the tripper are correspondingly arranged as cylinder ring, are provided with the cylinder ring corresponding with the pellet
Solve lock crossbeam.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720680195.8U CN206917425U (en) | 2017-06-12 | 2017-06-12 | Magnetic control lock |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720680195.8U CN206917425U (en) | 2017-06-12 | 2017-06-12 | Magnetic control lock |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206917425U true CN206917425U (en) | 2018-01-23 |
Family
ID=61315074
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720680195.8U Withdrawn - After Issue CN206917425U (en) | 2017-06-12 | 2017-06-12 | Magnetic control lock |
Country Status (1)
Country | Link |
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CN (1) | CN206917425U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107013102A (en) * | 2017-06-12 | 2017-08-04 | 珠海优特电力科技股份有限公司 | Magnetic control lock |
-
2017
- 2017-06-12 CN CN201720680195.8U patent/CN206917425U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107013102A (en) * | 2017-06-12 | 2017-08-04 | 珠海优特电力科技股份有限公司 | Magnetic control lock |
CN107013102B (en) * | 2017-06-12 | 2022-06-24 | 珠海优特电力科技股份有限公司 | Magnetic control lock |
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AV01 | Patent right actively abandoned |
Granted publication date: 20180123 Effective date of abandoning: 20220624 |
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