CN203947892U - Based on the reciprocal eject electromagnetic lock of electronic locker - Google Patents

Based on the reciprocal eject electromagnetic lock of electronic locker Download PDF

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Publication number
CN203947892U
CN203947892U CN201420391580.7U CN201420391580U CN203947892U CN 203947892 U CN203947892 U CN 203947892U CN 201420391580 U CN201420391580 U CN 201420391580U CN 203947892 U CN203947892 U CN 203947892U
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CN
China
Prior art keywords
lock
latch components
alignment pin
electronic locker
elastic sheet
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.)
Expired - Fee Related
Application number
CN201420391580.7U
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Chinese (zh)
Inventor
李承刚
杨登友
何裕翔
杨波
田照杨
杜凯
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
CHENGDU BAIDE METAL ELECTRIC APPLIANCE EQUIPMENT MANUFACTURING Co Ltd
Original Assignee
CHENGDU BAIDE METAL ELECTRIC APPLIANCE EQUIPMENT MANUFACTURING Co Ltd
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Application filed by CHENGDU BAIDE METAL ELECTRIC APPLIANCE EQUIPMENT MANUFACTURING Co Ltd filed Critical CHENGDU BAIDE METAL ELECTRIC APPLIANCE EQUIPMENT MANUFACTURING Co Ltd
Priority to CN201420391580.7U priority Critical patent/CN203947892U/en
Application granted granted Critical
Publication of CN203947892U publication Critical patent/CN203947892U/en
Expired - Fee Related legal-status Critical Current
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Abstract

The utility model discloses the reciprocal eject electromagnetic lock based on electronic locker, comprise the elastic sheet switch being connected with electronic locker controller, the latch components being connected with electronic locker cabinet door, be arranged on the first alignment pin of latch components one side, be arranged on the second alignment pin of latch components opposite side, power and before energising, make latch components prop up the first alignment pin by electronic locker controller, after energising, make latch components prop up the electromagnetic induction rotation controling mechanism of the second alignment pin, be connected to the extension spring between electromagnetic induction rotation controling mechanism and the first alignment pin, and be arranged between elastic sheet switch and latch components, driven the resilient push assembly of touching elastic sheet switch by latch components, electromagnetic induction rotation controling mechanism, elastic sheet switch, latch components, the first alignment pin, the second alignment pin and resilient push assembly are all arranged on a lock substrate.The utility model design is ingenious, simple in structure, takes up room little, can facilitate user to open fast electronic locker cabinet door.

Description

Based on the reciprocal eject electromagnetic lock of electronic locker
Technical field
The utility model relates to a kind of lockset, and what be specifically related to is a kind of reciprocal eject electromagnetic lock based on electronic locker.
Background technology
Along with the quickening of people's rhythm of life, the convenience of storing equipment and safety have also obtained increasing attention, and under this background, electronic locker (for example public storage bin, e-mail newspaper box, Intelligent Package are delivered cabinet etc.) arises at the historic moment.Electronic locker is the locker that electronic controller system is housed, and it adopts electronic pattern to manage locker, and safety factor is higher than traditional locker.
Any locker all be unable to do without lockset, and electronic locker is no exception, and the electric lockset on existing electronic locker is all under the control of electronic locker controller, to realize opening and closing of cabinet door.Although electric lockset is the important means that realizes electronic locker intelligent management, the defect that existing electric lockset all exists complex structure, take up room large, manufacturing cost is high, cannot open cabinet door fast, therefore, need to make improvements.
Utility model content
The purpose of this utility model is to provide a kind of reciprocal eject electromagnetic lock based on electronic locker, mainly solves to be applied in electric lockset on electronic locker and to have complex structure, take up room large and cannot open fast the problem of cabinet door.
To achieve these goals, the technical solution adopted in the utility model is as follows:
Based on the reciprocal eject electromagnetic lock of electronic locker, comprise the elastic sheet switch being connected with electronic locker controller, the latch components being connected with electronic locker cabinet door, be arranged on the first alignment pin of this latch components one side, be arranged on the second alignment pin of latch components opposite side, power and before energising, make latch components prop up the first alignment pin by electronic locker controller, after energising, make latch components prop up the electromagnetic induction rotation controling mechanism of the second alignment pin, be connected to the extension spring between electromagnetic induction rotation controling mechanism and the first alignment pin, and be arranged between elastic sheet switch and latch components, driven the resilient push assembly of touching elastic sheet switch by latch components, described electromagnetic induction rotation controling mechanism, elastic sheet switch, latch components, the first alignment pin, the second alignment pin and resilient push assembly are all arranged on a lock substrate.
Specifically, described electromagnetic induction rotation controling mechanism comprises the electromagnet that is connected and has pull bar with electronic locker controller, one end and the interior rotating mechanism of the lock that the pull bar of electromagnet is connected, the other end contacts with latch components, and the fixed axis that contacts with rotating mechanism in lock, drives the interior rotating mechanism of lock to rotate around it for pull bar; Described extension spring one end is connected with rotating mechanism in lock.
Further, rotating mechanism comprises the main tumbler that one end is connected with the pull bar of electromagnet, the other end is connected with turning cylinder in described lock, and one end is connected with this turning cylinder, the other end contacts with latch components, for making latch components prop up the secondary tumbler of the first alignment pin or the second alignment pin; Described extension spring one end is connected with main tumbler, and described fixed axis contacts with main tumbler.
Specifically, described resilient push assembly comprises and is all arranged on first limited block and second limited block of lock on substrate, and spring and one end are provided with the lock push rod of block; Described lock push rod runs through the first limited block, spring and the second limited block successively, the corresponding elastic sheet switch in this lock push rod one end, the corresponding latch components of the other end; Described spring one end is fixed on the first limited block, and the other end is fixed on block.
Specifically, described latch components comprises being arranged on locks on substrate and drives fastener in its lock that props up the first alignment pin or the second alignment pin by secondary tumbler, be arranged on the draw-in groove on fastener in this lock, the lock catch support being connected with electronic locker cabinet door, and be connected with this lock catch support and snap onto the locking member in draw-in groove; The corresponding lock catch support in described lock push rod one end, and this lock catch support is slidably connected with lock substrate.
Again further, described electromagnetic induction rotation controling mechanism, elastic sheet switch, latch components, the first alignment pin, the second alignment pin and resilient push assembly all removably connect with lock substrate.
As preferably, in described lock substrate, lock, rotating mechanism, latch components and lock push rod are all made of metal.
Further, described electromagnet outside is also overlapped the shell being made of plastics.
Compared with prior art, the utlity model has following beneficial effect:
(1) the utility model simple in structure, design ingenious, volume is small and exquisite, with low cost, simple operation.
(2) the utility model adopts way of electromagnetic induction control lockset to open, and feed back cabinet door opening and closing state by touching elastic sheet switch mode, its structure design is strictly followed mechanics principle, and the ingenious interaction relation having used between each component, progressive, and back and forth carry out, thereby not only can guarantee the quick opening and closing of cabinet door, and can realize well the correct management of electronic locker to cabinet door state.The utility model is after opening, and cabinet door can automatically spring open, and facilitates user to open, and carries out the access of article.
(3) component on the utility model lock substrate all removably connect with it, have both facilitated the installation and removal of electromagnetic lock, facilitate again staff to keep in repair electromagnetic lock.
(4) the utility model is also provided with the shell that is made of plastics and is enclosed within electromagnet outside, can prevent that electromagnetic lock from electricity occurring and leak, and has further improved safety.
(5) the utility model is practical, steadiness good, good looking appearance, and is easy to mass manufacture production, and production efficiency is quite high, has effectively saved cost, therefore, the utlity model has very high using value, is suitable for large-scale promotion application.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model.
Structural representation when Fig. 2 is the utility model unlatching.
Wherein, the component name that Reference numeral is corresponding is called:
1-electromagnet, 2-locks substrate, 3-elastic sheet switch, 4-spring, 5-block, 6-locks push rod, 7-locking member, fastener in 8-lock, 9-lock catch support, 10-the second alignment pin, 11-turning cylinder, 12-the first alignment pin, the secondary tumbler of 13-, 14-extension spring, 15-fixed axis, the main tumbler of 16-.
Detailed description of the invention
Below in conjunction with drawings and Examples, the utility model is described in further detail, and embodiment of the present utility model includes but not limited to the following example.
Embodiment
As shown in Figure 1, the utility model is mainly used in electronic locker aspect, and it comprises lock substrate 2, elastic sheet switch 3, electromagnetic induction rotation controling mechanism, latch components, the first alignment pin 12, the second alignment pin 10 and resilient push assembly.All component are all arranged on lock substrate 2 and removably connect with it.
Described lock substrate 2 is arranged on electronic locker; Described elastic sheet switch 3 is connected with the controller of electronic locker, and elastic sheet switch 3 is realized electromagnetic lock by closed and disconnected and opened and closed signal feedback.Described electromagnetic induction rotation controling mechanism is for realizing the open and close control of whole electromagnetic lock, specifically, it comprises the electromagnet 1 that is connected and has pull bar with electronic locker controller, one end and the interior rotating mechanism of the lock that the pull bar of electromagnet is connected, the other end contacts with latch components, and the fixed axis 15 contacting with rotating mechanism in lock; And further, in lock in the present embodiment, rotating mechanism comprises the main tumbler 16 that one end is connected with the pull bar of electromagnet, the other end is connected with turning cylinder 11, and one end and this turning cylinder 11 is connected, the other end contacts with latch components secondary tumbler 13; Described extension spring 14 one end are connected with main tumbler 16, and described fixed axis 15 contacts with main tumbler 16.What adopt due to the utility model is the opening and closing that the mode of electromagnetic induction realizes electromagnetic lock, therefore, and as preferably, in the present embodiment, electromagnet 1 outside is also overlapped the shell being made of plastics, and this shell can be made by injection molding process, and can adopt sunk screw to be connected with lock substrate.
Described latch components is under the control of electromagnetic induction rotation controling mechanism, coordinate with resilient push assembly, realize opening and closing of electronic locker cabinet door, wherein, resilient push assembly comprises and is all arranged on first limited block and second limited block of lock on substrate 2, and spring 4 and one end are provided with the lock push rod 6 of block 5; Described lock push rod 6 runs through the first limited block, spring 4 and the second limited block successively; Described spring 4 one end are fixed on the first limited block, and the other end is fixed on block 5; Latch components comprises and is arranged on fastener 8 in the lock of lock on substrate 2, is arranged on the draw-in groove on fastener 8 in this lock, the lock catch support 9 being connected with electronic locker cabinet door, and be connected with this lock catch support 9 and snap onto the locking member 7 in draw-in groove; Described lock catch support 9 is slidably connected with lock substrate 2.The corresponding elastic sheet switch 3 in described lock push rod 6 one end, the corresponding lock catch support 9 of the other end; 10 points of described the first alignment pin 12 and the second alignment pins are located at the both sides of fastener 8 in lock.For strengthening intensity of the present utility model, in the present embodiment, in lock substrate 2, lock, rotating mechanism, latch components and lock push rod 6 are all made of metal.
Use procedure of the present utility model is as follows:
The utility model is arranged on electronic locker, and then as shown in Figure 1, 2, Fig. 1 is the structural representation of electromagnetic lock while closing, and secondary tumbler 13 now contacts with fastener 8 in lock, and makes fastener 8 in this lock prop up the first alignment pin 12.Now, because locking member 7 is stuck in the draw-in groove of fastener 8 in lock, therefore lock catch support 9 has given 6 one of lock push rods power left, promotes the shell fragment of one side pressure contracting elastic sheet switch 3, and elastic sheet switch 3 disconnected, the state of feedback electromagnetic lock in closing, meanwhile, due to the effect of block 5 on lock push rod 6, spring 4 is now in compressive state, the power that recovery elastic force and the draw-in groove of spring 4 act on locking member 7 equates, and opposite direction.
Fig. 2 is the structural representation of electromagnetic lock while opening, and in the time that needs are opened electronic locker cabinet door (accompanying drawing does not draw), electronic locker controller (accompanying drawing does not draw) makes electromagnet 1 energising produce magnetic force.Electromagnet 1 produces after magnetic force, attracts the pull bar on it to move upward, and this pull bar drives rotating mechanism in lock to rotate around fixed axis 15 simultaneously, and secondary tumbler 13 is separated with fastener 8 in lock.Then, electromagnet 1 power-off, magnetic force disappears, and due to extension spring 14 in lock rotating mechanism when rotation in extended state, therefore,, when electromagnet 1 loses magnetic force, the restoring force of extension spring 14 can make main tumbler 16 drive secondary tumbler 13 to set back by turning cylinder 11, and promote the interior fastener 8 of lock toward clockwise direction rotation, make it prop up the second alignment pin 10.In lock, fastener 8 props up after the second alignment pin 10, the opening part of locking member 7 in draw-in groove, draw-in groove no longer gives locking member 7 any active force, now, spring 4 has given lock push rod 6 elastic force to the right in reverting to original state, make to lock push rod 6 one end and depart from elastic sheet switch 3, the lock catch support 9 of other end promotion simultaneously slides to the right along lock substrate 2, and drives electronic locker cabinet door also to move right and open.Because elastic sheet switch 3 separates with lock push rod 6, shell fragment on it is no longer compressed, thereby be now closure state, the state of feedback electromagnetic lock in opening, user can directly open electronic locker cabinet door (if electronic locker is provided with password, also need user to input proper password then just can open electronic locker cabinet door).
The object that user deposits needs is put into electronic locker cabinet door, or takes out after object from cabinet door, manual-lock cabinet door.Closing in cabinet door process, cabinet door promotes lock catch support 9 and slides left along lock substrate 2, drives locking member 7 to snap onto in draw-in groove, and has given 8 one of interior fasteners of lock power left, makes to lock interior fastener 8 and rotates counterclockwise.In lock, fastener 8 promotes secondary tumbler 13 moving axis 11 that rotates when rotating and rotates, and in lock, fastener 8 props up the first alignment pin 12, secondary tumbler 13 contacts with fastener 8 in lock again, make to lock interior fastener 8 positions and be fixed, now, lock push rod 6 one end are compressed the shell fragment of elastic sheet switch 3 again, elastic sheet switch 3 is disconnected, and feed back electromagnetic lock in closed condition, and spring 4 is again in compressive state simultaneously, and whole electromagnetic lock is got back to again and the structural representation state shown in Fig. 1.
According to aforesaid way, can realize user and repeatedly open and close the operation of electronic locker cabinet door.
In the utility model, lock substrate can adopt the steel plate that 2mm is thick, and carry out the antirust processing of chromium plating on surface, in lock, fastener is all to adopt microdiecast process fine finishining guaranteed strength and precision with the interior rotating mechanism of lock, it is thick that these two component can be designed into 6mm, thereby can bear sizable destructive power, ensures the safety of electromagnetic lock, and can reduce taking up room of electromagnetic lock, for locker provides more storage space.Magnet spool length can be designed into 36mm, guarantees electromagnetic lock working stability, reliable.The utility model has been equipped with the elastic sheet switch of mechanical contact-type, reliablely and stablely feeds back the open and close state of electromagnetic lock, has ensured the safety of cabinet door.In addition, the utility model can also design mechanical unlocking device below lock substrate, and then by manual mode toggle switch, thereby (as power failure, system equipment fault etc.) carry out the opening and closing of locker cabinet door under special circumstances.
The utility model is by carrying out effective combination by existing equipment and ripe electron controls technology, realize the simplification of electronic locker lock structure, reduce taking up room of lockset, and accelerate the speed that lockset opens and closes, thereby it has not only improved efficiency, reduced manufacture production cost, and greatly met the user demand of user to electronic locker, the utility model has significantly been optimized the overall performance of electronic locker.
Above-described embodiment is only preferably one of implementation of the utility model; should be in order to not limit protection domain of the present utility model; all change or polishings of under body design thought of the present utility model and spirit, technical solutions of the utility model being made; or be equal to displacement; the technical problem of its solution is in fact still consistent with the utility model, all should be within protection domain of the present utility model.

Claims (8)

1. the reciprocal eject electromagnetic lock based on electronic locker, it is characterized in that: comprise the elastic sheet switch (3) being connected with electronic locker controller, the latch components being connected with electronic locker cabinet door, be arranged on first alignment pin (12) of this latch components one side, be arranged on second alignment pin (10) of latch components opposite side, power and before energising, make latch components prop up the first alignment pin by electronic locker controller, after energising, make latch components prop up the electromagnetic induction rotation controling mechanism of the second alignment pin, be connected to the extension spring (14) between electromagnetic induction rotation controling mechanism and the first alignment pin, and be arranged between elastic sheet switch (3) and latch components, driven the resilient push assembly of touching elastic sheet switch by latch components, described electromagnetic induction rotation controling mechanism, elastic sheet switch (3), latch components, the first alignment pin (12), the second alignment pin (10) and resilient push assembly are all arranged on a lock substrate (2).
2. the reciprocal eject electromagnetic lock based on electronic locker according to claim 1, it is characterized in that: described electromagnetic induction rotation controling mechanism comprises the electromagnet (1) that is connected and has pull bar with electronic locker controller, one end and the interior rotating mechanism of the lock that the pull bar of electromagnet is connected, the other end contacts with latch components, and the fixed axis (15) that contacts with rotating mechanism in lock, drives the interior rotating mechanism of lock to rotate around it for pull bar; Described extension spring (14) one end is connected with rotating mechanism in lock.
3. the reciprocal eject electromagnetic lock based on electronic locker according to claim 2, it is characterized in that: rotating mechanism comprises the main tumbler (16) that one end is connected with the pull bar of electromagnet, the other end is connected with turning cylinder (11) in described lock, and one end is connected with this turning cylinder (11), the other end contacts with latch components, for making latch components prop up the secondary tumbler (13) of the first alignment pin (12) or the second alignment pin (10); Described extension spring (14) one end is connected with main tumbler (16), and described fixed axis (15) contacts with main tumbler (16).
4. the reciprocal eject electromagnetic lock based on electronic locker according to claim 3, it is characterized in that: described resilient push assembly comprises the first limited block and the second limited block that are all arranged on lock substrate (2), and spring (4) and one end are provided with the lock push rod (6) of block (5); Described lock push rod (6) runs through the first limited block, spring (4) and the second limited block successively, the corresponding elastic sheet switch in this lock push rod (6) one end (3), the corresponding latch components of the other end; Described spring (4) one end is fixed on the first limited block, and the other end is fixed on block (5).
5. the reciprocal eject electromagnetic lock based on electronic locker according to claim 4, it is characterized in that: described latch components comprises that being arranged on lock substrate (2) above and by secondary tumbler (13) drives fastener (8) in its lock that props up the first alignment pin or the second alignment pin, be arranged on the draw-in groove on fastener (8) in this lock, the lock catch support (9) being connected with electronic locker cabinet door, and be connected with this lock catch support (9) and snap onto the locking member (7) in draw-in groove; The corresponding lock catch support in described lock push rod (6) one end (9), and this lock catch support (9) is slidably connected with lock substrate (2).
6. the reciprocal eject electromagnetic lock based on electronic locker according to claim 5, is characterized in that: described electromagnetic induction rotation controling mechanism, elastic sheet switch (3), latch components, the first alignment pin (12), the second alignment pin (10) and resilient push assembly all removably connect with lock substrate (2).
7. the reciprocal eject electromagnetic lock based on electronic locker according to claim 6, is characterized in that: in described lock substrate (2), lock, rotating mechanism, latch components and lock push rod (6) are all made of metal.
8. according to the reciprocal eject electromagnetic lock based on electronic locker described in any one of claim 2~7, it is characterized in that: the outside also cover of described electromagnet (1) has the shell being made of plastics.
CN201420391580.7U 2014-07-16 2014-07-16 Based on the reciprocal eject electromagnetic lock of electronic locker Expired - Fee Related CN203947892U (en)

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Application Number Priority Date Filing Date Title
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Application Number Priority Date Filing Date Title
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104453451A (en) * 2014-11-20 2015-03-25 广州市暨嘉信息科技有限公司 Electric control lock
CN104533173A (en) * 2014-12-17 2015-04-22 苏州长鼎兴智能科技有限公司 Intelligent cabinet electronic lock
CN105239856A (en) * 2015-11-09 2016-01-13 珠海格力电器股份有限公司 Door lock device and storage box with same
CN105604406A (en) * 2016-03-17 2016-05-25 长沙强三机电科技有限公司 Electromagnetic lock for self-service machine
CN105863394A (en) * 2016-05-27 2016-08-17 广州御银科技股份有限公司 Locking structure
WO2020063907A1 (en) * 2018-09-30 2020-04-02 山东新北洋信息技术股份有限公司 Lock and locker
CN111255296A (en) * 2020-01-16 2020-06-09 安徽尚易信息技术有限公司 Intelligent cabinet for temporary storage of articles and control system thereof

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104453451A (en) * 2014-11-20 2015-03-25 广州市暨嘉信息科技有限公司 Electric control lock
CN104533173A (en) * 2014-12-17 2015-04-22 苏州长鼎兴智能科技有限公司 Intelligent cabinet electronic lock
CN104533173B (en) * 2014-12-17 2017-03-29 苏州长鼎兴智能科技有限公司 Intelligent bin electronic lock
CN105239856A (en) * 2015-11-09 2016-01-13 珠海格力电器股份有限公司 Door lock device and storage box with same
CN105604406A (en) * 2016-03-17 2016-05-25 长沙强三机电科技有限公司 Electromagnetic lock for self-service machine
CN105863394A (en) * 2016-05-27 2016-08-17 广州御银科技股份有限公司 Locking structure
CN105863394B (en) * 2016-05-27 2018-11-06 广州御银科技股份有限公司 A kind of locking mechanism
WO2020063907A1 (en) * 2018-09-30 2020-04-02 山东新北洋信息技术股份有限公司 Lock and locker
CN111255296A (en) * 2020-01-16 2020-06-09 安徽尚易信息技术有限公司 Intelligent cabinet for temporary storage of articles and control system thereof

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GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20141119

Termination date: 20190716