CN209556551U - Door lock - Google Patents

Abstract

The utility model provides a kind of door lock, comprising: front panel and rear panel；Front handlebar and rear handle, are separately mounted on front panel and rear panel；First Hall subassembly, including the first magnetic part and the first hall sensing part matched with the first magnetic part, one in the first magnetic part and the first hall sensing part is sequentially connected with front handlebar, another is forward-mounted on plate；Second Hall subassembly, including the second magnetic part and the second hall sensing part matched with the second magnetic part, one in the second magnetic part and the second hall sensing part is sequentially connected with rear handle, another is mounted on rear panel.Door lock provided by the utility model incudes the movement of front handlebar and rear handle, flexible durable, long service life using hall principle；And the movement of front handlebar and rear handle can quickly be captured using contactless induction mode, both improved the accuracy of detection, in turn simplified the working principle of door lock, be conducive to simplify the control structure inside door lock.

Description

Door lock

Technical field

The utility model relates to field of lockset, in particular to a kind of door lock.

Background technique

Currently, the movement for how rapidly and accurately capturing door lock handle, which becomes, grinds with the promotion and popularization of intelligent door lock Hair personnel's issues that need special attention, and existing intelligent door lock generally incudes handle movement by contact, i.e., using induction touching Point incudes handle movement by way of contact, inflexible since contact needs multiple-contact foreign object to be prone to wear, and makes It is low with the service life.

Utility model content

At least one in order to solve the above-mentioned technical problem, the purpose of this utility model is to provide a kind of door locks.

To achieve the goals above, the utility model provides a kind of door lock, comprising: front panel and rear panel；Front handlebar With rear handle, it is separately mounted on the front panel and the rear panel；First Hall subassembly, including the first magnetic part and with institute State the first hall sensing part that the first magnetic part matches, one in first magnetic part and the first hall sensing part It is sequentially connected with the front handlebar, another installation is on the front panel；Second Hall subassembly, including the second magnetic part and with The second hall sensing part that second magnetic part matches, one in second magnetic part and the second hall sensing part A to be sequentially connected with the rear handle, another is mounted on the rear panel.

Door lock provided by the utility model, it is contactless by the first Hall subassembly of setting and the second Hall subassembly, use Hall principle incude the movement of front handlebar and rear handle, compared to the prior art in contact induction mode, be not present The problem of induction pieces contact wear, thus flexible durable, long service life；And the movement of front handlebar and rear handle can use it is non- The induction mode of contact is quickly captured, different compared to the movement for only incuding one of handle or two one or two hand gettings Induction mode for, both improved the accuracy of detection, and in turn simplified the working principle of door lock, be conducive to simplify door lock inside Control structure.

Specifically, door lock includes front panel, rear panel, front handlebar, rear handle, the first Hall subassembly and the second Hall group Part.Wherein, the first Hall subassembly includes mutually matched first magnetic part and the first hall sensing part, and one in the two is with before Handle be sequentially connected (can be directly connected and be also possible to be indirectly connected) thus keep rotating synchronously with front handlebar, in the two Another is forward-mounted on plate and remain stationary, thus when front handlebar movement, the first magnetic part and the first hall sensing part it Between distance change become so that the magnetic field that the first hall sensing part senses changes and then generates corresponding voltage Change, then can quick and precisely capture the action state of front handlebar by the induction result of the first hall sensing part；Second Hall group Part includes mutually matched second magnetic part and the second hall sensing part, and one in the two and the transmission connection of rear handle (can be with It is to be connected directly to be also possible to be indirectly connected) thus keep rotating synchronously with rear handle, another in the two is mounted below It is remain stationary on plate, thus when the movement of rear handle, the distance between the second magnetic part and the second hall sensing part change, So that the magnetic field that the second hall sensing part senses changes and then generates corresponding voltage change, then pass through the second Hall sense The action state of handle after answering the induction result of part that can quick and precisely capture.Since hall principle is one kind of galvanomagnetic-effect, It thus can be realized non-contact inductive, and hall sensing part (such as various Hall sensors) has to magnetic-field-sensitive, structure letter It is single, small in size, frequency response is wide, output voltage variation greatly with long service life the advantages that, thus efficiently solve contact sense Answer inflexible and low service life problem.

In addition, the door lock in above-mentioned technical proposal provided by the utility model can also have following additional technical feature:

In the above-mentioned technical solutions, the door lock further include: preceding commutation driving member and rear commutation driving member, respectively with it is described Front handlebar and the rear handle are fixedly linked, for switching the operative orientation of the front handlebar and the rear handle.

Door lock further include before commutation driving member and rear commutation driving member, preceding commutation driving member and commutate afterwards driving member respectively with Front handlebar and rear handle are fixedly linked, and keep rotating synchronously with front handlebar and rear handle, allow hand over the operative orientation of door lock, with Door lock is set to can adapt to different enabling directions, to improve the versatility of door lock.

In the above-mentioned technical solutions, first magnetic part is arranged on the preceding commutation driving member, first Hall Induction pieces are installed on the front panel；And/or second magnetic part setting is after described on commutation driving member, described the Two hall sensing parts are mounted on the rear panel.

It is arranged since preceding commutation driving member is fixedly linked with front handlebar, thus by the first magnetic part in preceding commutation driving member On, that is, the indirect drive for realizing the first magnetic part and front handlebar connects, and ensure that the first magnetic part can be rotated with preceding commutation Part, which is realized, to be rotated synchronously, and correspondingly, the first hall sensing part, which is then forward-mounted on plate, to be remain stationary, such first hall sensing The connection of part is relatively stable, is not easy that other influences are interfered or generated with other structures, not only improves in optimization door lock The configuration in portion is also beneficial to improve the use reliability of the first hall sensing component.

Similarly, it is fixedly linked due to rear commutation driving member with rear handle, thus the setting of the second magnetic part is passed in rear commutation It on moving part, that is, realizes the second magnetic part and is connect with the indirect drive of rear handle, ensure that the second magnetic part can be with rear commutation Rotating member, which is realized, to be rotated synchronously, and correspondingly, the second hall sensing part, which is then mounted on rear panel, to be remain stationary, such second Hall The connection of induction pieces is relatively stable, is not easy that other influences are interfered or generated with other structures, not only improves optimization door Configuration inside lock is also beneficial to improve the use reliability of the second hall sensing component.

In the above-mentioned technical solutions, the first hall sensing part when the front handlebar descends in the raw with it is described The line of first magnetic part passes through the rotation axis of the preceding commutation driving member；And/or the first hall sensing part is described Positioned at the surface or underface of first magnetic part when front handlebar descends in the raw.

Rotation angle when due to front handlebar movement is generally 45 °, thus should during the first magnetic part also around preceding commutation The rotation axis of driving member it is (generally conllinear with the rotation axis of front handlebar) rotation 45 °, in this way, front handlebar in the raw When under (when not being rotated), if the line of the first hall sensing part and the first magnetic part is by the rotation of preceding commutation driving member Axis, then the distance between the first magnetic part and the first hall sensing part are maximum or minimum, thus in the process of front handlebar movement In, the distance between the first magnetic part and the first hall sensing part can be gradually reduced or be gradually increased, thus the first Hall sense The position of the induction result and front handlebar of answering part corresponds, and significantly improves the detection accuracy of the first Hall subassembly.

First hall sensing part when front handlebar descends in the raw positioned at the surface or underface of the first magnetic part, That is the first hall sensing part and the first magnetic part face are arranged, and such layout is more regular, are conducive to optimize door lock internal junction Structure.Preferably, under the first hall sensing part is when front handlebar descends in the raw positioned at the surface of the first magnetic part or just Side and the rotation axis for passing through preceding commutation driving member with the line of the first magnetic part.

In the above-mentioned technical solutions, when the second hall sensing part handle after described descends in the raw with it is described The line of second magnetic part commutates the rotation axis of driving member after described；And/or the second hall sensing part is described Positioned at the surface or underface of second magnetic part when handle descends in the raw afterwards.

Rotation angle when due to the movement of rear handle is generally 45 °, thus should during the second magnetic part also around rear commutation The rotation axis of driving member it is (generally conllinear with the rotation axis of rear handle) rotation 45 °, in this way, rear handle in the raw When under (when not being rotated), the rotation of driving member if the line of the second hall sensing part and the second magnetic part warp commutates later Axis, then the distance between the second magnetic part and the second hall sensing part are maximum or minimum, thus in the process of rear handle movement In, the distance between the second magnetic part and the second hall sensing part can be gradually reduced or be gradually increased, thus the second Hall sense The position of the induction result and rear handle of answering part corresponds, and significantly improves the detection accuracy of the second Hall subassembly.

Second hall sensing part when rear handle descends in the raw positioned at the surface or underface of the second magnetic part, That is the second hall sensing part and the second magnetic part face are arranged, and such layout is more regular, are conducive to optimize door lock internal junction Structure.Preferably, under the second hall sensing part is when rear handle descends in the raw positioned at the surface of the second magnetic part or just The rotation axis of side and the driving member that commutates later with the line of the second magnetic part warp.

In any of the above-described technical solution, the quantity of first magnetic part is two, and two first magnetic parts close It is symmetrical arranged in the rotation axis of the front handlebar, alternatively, the quantity of the first hall sensing part is two, two described the One hall sensing part is symmetrical arranged about the rotation axis of the front handlebar；And/or the quantity of second magnetic part is two A, two second magnetic parts are symmetrical arranged about the rotation axis of the rear handle, alternatively, the second hall sensing part Quantity be two, two the second hall sensing parts are symmetrical arranged about the rotation axis of handle after described.

It is two by the quantitative design of the first magnetic part, and two the first magnetic parts are symmetrical about the rotation axis of front handlebar Setting, then when front handlebar commutates, another first magnetic part is rotated just to the position matched with the first hall sensing part, It can thus be matched with the first hall sensing part, continue to realize the inducing function to front handlebar movement, to improve door lock Versatility.Preferably, when one of them first magnetic part and the first hall sensing part cooperate, another the first magnetic part position In outside the induction range of the first hall sensing part.

Alternatively, being two by the quantitative design of the first hall sensing part, and two the first hall sensing parts are about front handlebar Rotation axis be symmetrical arranged, then when front handlebar commutate when, the first magnetic part rotate just extremely with another the first hall sensing The position that part matches, it is thus possible to be matched with another the first hall sensing part, continue to realize the sense to front handlebar movement Function is answered, to improve the versatility of door lock.Preferably, when the first magnetic part and one of them first hall sensing part cooperate When, outside the induction range in another the first hall sensing part.

It similarly, is two by the quantitative design of the second magnetic part, and rotary shaft of two the second magnetic parts about rear handle Line is symmetrical arranged, then when rear handle commutates, another second magnetic part rotates just extremely to be matched with the second hall sensing part Position, it is thus possible to matched with the second hall sensing part, continue to realize the inducing function to the movement of rear handle, to improve The versatility of door lock.Preferably, when one of them second magnetic part and the second hall sensing part cooperate, another second magnetic Property part is located at outside the induction range of the second hall sensing part.

Alternatively, being two by the quantitative design of the second hall sensing part, and two the second hall sensing parts are about rear handle Rotation axis be symmetrical arranged, then when rear handle commutate when, the second magnetic part rotate just extremely with another the second hall sensing The position that part matches, it is thus possible to be matched with another the second hall sensing part, continue to realize the sense to the movement of rear handle Function is answered, to improve the versatility of door lock.Preferably, when the second magnetic part and one of them second hall sensing part cooperate When, outside the induction range in another the second hall sensing part.

In any of the above-described technical solution, the rear panel is equipped with safety lock knob, the door lock further include: third is suddenly That component, including third magnetic part and the third hall sensing part matched with the third magnetic part, the third magnetic part It is sequentially connected with one in the third hall sensing part with the safety lock knob, another is mounted on the rear panel On.

By the way that third Hall subassembly is arranged, the movement of safety lock knob is incuded using contactless hall principle, no There are problems that induction pieces contact wear, flexible durable, long service life.Third Hall subassembly includes mutually matched third magnetic Property part and third hall sensing part, one in the two (can be directly connected and be also possible to the transmission connection of safety lock knob It is indirectly connected) thus keep rotating synchronously with safety lock knob, another in the two, which is forward-mounted on plate, to be remain stationary, because And when the movement of safety lock knob, the distance between third magnetic part and third hall sensing part change, so that third is suddenly The magnetic field that your induction pieces sense changes and then generates corresponding voltage change, then passes through the induction of third hall sensing part As a result the action state of safety lock knob can quick and precisely be captured.

In the above-mentioned technical solutions, the third magnetic part is arranged on the safety lock knob, the third Hall sense Part is answered to be mounted on the rear panel.

Third magnetic part is arranged on rear commutation driving member, that is, realizes the direct of third magnetic part and safety lock knob Transmission connection ensure that third magnetic part can realize synchronous rotation, correspondingly, third hall sensing part with rear commutation rotating member It is then mounted on rear panel and remain stationary, the connection of such third hall sensing part is relatively stable, is not easy and other structures Other influences are interfered or generated, the configuration inside optimization door lock is not only improved, are also beneficial to improve the sense of third Hall Answer the use reliability of component.

In the above-mentioned technical solutions, the third hall sensing part when the safety lock knob descends in the raw with The line of the third magnetic part passes through the rotation axis of the safety lock knob；And/or the third hall sensing part is in institute Positioned at the surface or underface of the third magnetic part when stating safety lock knob in the raw.

Rotation angle when due to the movement of safety lock knob is generally 45 °, thus should during third magnetic part also around peace The rotation axis of full lock knob rotates 45 °, in this way, safety lock knob in the raw (when not being rotated) under when, such as The line warp of fruit third hall sensing part and third magnetic part commutates the rotation axis of driving member later, then third magnetic part and the The distance between three hall sensing parts are maximum or minimum, thus during the movement of safety lock knob, third magnetic part and the The distance between three hall sensing parts can be gradually reduced or be gradually increased, thus the induction result of third hall sensing part and peace The position of full lock knob corresponds, and significantly improves the detection accuracy of third Hall subassembly.

Third hall sensing part when safety lock knob descends in the raw positioned at the surface of third magnetic part or just Lower section, i.e. third hall sensing part and third magnetic part face are arranged, and such layout is more regular, are conducive to optimize in door lock Portion's structure.Preferably, third hall sensing part when safety lock knob descends in the raw positioned at third magnetic part just on Side or underface and the rotation axis for passing through safety lock knob with the line of third magnetic part.

In the above-mentioned technical solutions, the quantity of the third magnetic part is two, and two third magnetic parts are about institute The rotation axis for stating safety lock knob is symmetrical arranged；Alternatively, the quantity of the third hall sensing part is two, two described the Three hall sensing parts are symmetrical arranged about the rotation axis of the safety lock knob.

It is two by the quantitative design of third magnetic part, and rotation axis of two third magnetic parts about safety lock knob It is symmetrical arranged, then when door lock commutates, another third magnetic part is rotated just to the position matched with third hall sensing part It sets, it is thus possible to be matched with third hall sensing part, continue to realize the inducing function to the movement of safety lock knob, to improve The versatility of door lock.Preferably, when one of third magnetic part and third hall sensing part cooperate, another third magnetic Property part is located at outside the induction range of third hall sensing part.

Alternatively, being two by the quantitative design of third hall sensing part, and two third hall sensing parts are about safety lock The rotation axis of knob is symmetrical arranged, then when door lock commutates, third magnetic part rotate just extremely with another third Hall sense Answer the position that part matches, it is thus possible to match with another third hall sensing part, continue to realize dynamic to safety lock knob The inducing function of work, to improve the versatility of door lock.Preferably, when third magnetic part and one of third hall sensing When part cooperates, outside the induction range in another third hall sensing part.

In any of the above-described technical solution, the front panel is equipped with preceding master control borad, the preceding master control borad and described first Hall sensing part is electrically connected, and the signal that can be sent according to the first hall sensing part works；And/or the rear panel It is equipped with rear master control borad, the rear master control borad and the second hall sensing part are electrically connected, can be according to second Hall The signal work that induction pieces are sent.

Front panel is equipped with preceding master control borad, and preceding master control borad and the electric connection of the first hall sensing part (can be and pass through signal Line, which is realized, to be electrically connected, and is also possible to module by wireless communication and is realized electric connection), and then can be according to the first hall sensing The signal that part is sent carries out corresponding information processing and information output, to realize corresponding function, for example unlocks, locking, issues police Report issues instruction of withdrawing a garrison, sends related letter to the mobile terminal (such as mobile phone, tablet computer, laptop, bracelet) of user Breath, to improve the intelligence degree of door lock.Certainly, the first hall sensing part can also by wireless communication module directly with Mobile terminal is electrically connected, and is sent to the mobile terminal (such as mobile phone, tablet computer, laptop, bracelet) of user related Information.

Rear panel is equipped with rear master control borad, and rear master control borad and the electric connection of the second hall sensing part (can be and pass through signal Line, which is realized, to be electrically connected, and is also possible to module by wireless communication and is realized electric connection), and then can be according to the second hall sensing The signal that part is sent carries out corresponding information processing and information output, to realize corresponding function, for example unlocks, locking, issues police Report issues instruction of withdrawing a garrison, sends related letter to the mobile terminal (such as mobile phone, tablet computer, laptop, bracelet) of user Breath, to improve the intelligence degree of door lock.Certainly, the second hall sensing part can also by wireless communication module directly with Mobile terminal is electrically connected, and is sent to the mobile terminal (such as mobile phone, tablet computer, laptop, bracelet) of user related Information.

The additional aspect and advantage of the utility model will become obviously in following description section, or practical new by this The practice of type is recognized.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will Become obvious and be readily appreciated that, in which:

Fig. 1 is a partial structural diagram of door lock described in some embodiments of the utility model；

Fig. 2 is another partial structural diagram of door lock described in some embodiments of the utility model.

Wherein, the appended drawing reference in Fig. 1 and Fig. 2 and the corresponding relationship between component names are as follows:

10 front panels, 11 lock cores, master control borad before 12,13 first magnetic parts, 14 display screens, 15 first hall sensing parts, 16 Front handlebar, commutate before 17 driving member, 20 rear panels, 21 second magnetic parts, 22 second hall sensing parts, and commutate driving member after 23, Handle after 24,25 third magnetic parts, 26 third hall sensing parts, 27 safety lock knobs, master control borad after 28,29 battery cases.

Specific embodiment

In order to be more clearly understood that the above objects, features, and advantages of the utility model, with reference to the accompanying drawing and have The utility model is further described in detail in body embodiment.It should be noted that in the absence of conflict, this Shen The feature in embodiment and embodiment please can be combined with each other.

Many details are explained in the following description in order to fully understand the utility model, still, this is practical Novel to be implemented using other than the one described here other modes, therefore, the protection scope of the utility model is simultaneously It is not limited by the specific embodiments disclosed below.

The door lock according to the utility model some embodiments is described referring to Fig. 1 to Fig. 2.

As depicted in figs. 1 and 2, door lock provided by the utility model, comprising: front panel, rear panel, front handlebar, rear handle 24, the first Hall subassembly and the second Hall subassembly.

Specifically, front handlebar 16 and rear handle 24 are separately mounted on front panel 10 and rear panel 20, such as Fig. 1 and Fig. 2 institute Show；First Hall subassembly includes the first magnetic part 13 and the first hall sensing part 15 for matching with the first magnetic part 13, and first One in magnetic part 13 and the first hall sensing part 15 is sequentially connected with front handlebar 16, another is forward-mounted on plate 10； Second Hall subassembly includes the second magnetic part 21 and the second hall sensing part 22 for matching with the second magnetic part 21, and second is magnetic One in part 21 and the second hall sensing part 22 is sequentially connected with rear handle 24, another is mounted on rear panel 20.

Door lock provided by the utility model, it is contactless by the first Hall subassembly of setting and the second Hall subassembly, use Hall principle incude the movement of front handlebar 16 and rear handle 24, compared to the prior art in contact induction mode, no There are problems that induction pieces contact wear, thus flexible durable, long service life；And the movement of front handlebar 16 and rear handle 24 is all It can quickly be captured using contactless induction mode, compared to the movement for only incuding one of handle or two handles For different induction modes, the accuracy of detection had both been improved, has in turn simplified the working principle of door lock, has been conducive to simplify Control structure inside door lock.

Specifically, door lock includes front panel 10, rear panel 20, front handlebar 16, rear handle 24, the first Hall subassembly and Two Hall subassemblies.Wherein, the first Hall subassembly includes mutually matched first magnetic part 13 and the first hall sensing part 15, the two In one with front handlebar 16 be sequentially connected (can be directly connected and be also possible to be indirectly connected) thus with front handlebar 16 keep It rotating synchronously, another in the two, which is forward-mounted on plate 10, to be remain stationary, thus when front handlebar 16 acts, first is magnetic The distance between part 13 and the first hall sensing part 15 change, so that the magnetic field that the first hall sensing part 15 senses occurs Change and then generate corresponding voltage change, then before can quick and precisely being captured by the induction result of the first hall sensing part 15 The action state of handle 16；Second Hall subassembly includes mutually matched second magnetic part 21 and the second hall sensing part 22, and two One in person is protected with rear handle 24 transmission connection (can be directly connected and be also possible to be indirectly connected) thus with rear handle 24 Synchronous rotation is held, another in the two, which is mounted on rear panel 20, to be remain stationary, thus when the movement of rear handle 24, the second magnetic Property the distance between part 21 and the second hall sensing part 22 change so that the second hall sensing part 22 sense magnetic field hair Changing generates corresponding voltage change in turn, then can quick and precisely be captured by the induction result of the second hall sensing part 22 The action state of handle 24 afterwards.Since hall principle is one kind of galvanomagnetic-effect, it is thus possible to realize non-contact inductive, and suddenly Your induction pieces (such as various Hall sensors) have to magnetic-field-sensitive, structure is simple, small in size, frequency response is wide, output voltage The advantages that changing big and long service life, thus it is low to efficiently solve the problems, such as that contact incudes inflexible and service life.

The specific structure of door lock provided by the present application is described in detail below with reference to some embodiments.

Embodiment one

As depicted in figs. 1 and 2, door lock further include: preceding commutation driving member 17 and rear commutation driving member 23, respectively with front handlebar 16 and rear handle 24 be fixedly linked, for switching the operative orientation of front handlebar 16 and rear handle 24.

Door lock further includes preceding commutation driving member 17 and the driving member 23 that commutates afterwards, preceding commutation driving member 17 and rear commutation driving member 23 are fixedly linked with front handlebar 16 and rear handle 24 respectively, keep rotating synchronously with front handlebar 16 and rear handle 24, allow hand over The operative orientation of door lock, so that door lock can adapt to different enabling directions, to improve the versatility of door lock.

Further, the first magnetic part 13 is arranged on preceding commutation driving member 17, before the first hall sensing part 15 is mounted on On panel 10, as shown in Figure 1；Second magnetic part 21 is arranged on rear commutation driving member 23, and the second hall sensing part 22 is mounted on On rear panel 20, as shown in Figure 2.

It is passed since preceding commutation driving member 17 is fixedly linked with front handlebar 16, thus by the setting of the first magnetic part 13 in preceding commutation It on moving part 17, that is, realizes the first magnetic part 13 and is connect with the indirect drive of front handlebar 16, ensure that the first magnetic part 13 can It realizes and rotates synchronously with preceding commutation rotating member, correspondingly, the first hall sensing part 15 is then forward-mounted on plate 10 and remain stationary, The connection of such first hall sensing part 15 is relatively stable, is not easy that other influences are interfered or generated with other structures, The configuration inside optimization door lock is not only improved, is also beneficial to improve the use reliability of the first hall sensing component.Similarly, It is arranged since rear commutation driving member 23 is fixedly linked with rear handle 24, thus by the second magnetic part 21 in rear commutation driving member 23 On, that is, it realizes the second magnetic part 21 and is connect with the indirect drive of rear handle 24, ensure that the second magnetic part 21 can be changed with after It realizes and rotates synchronously to rotating member, correspondingly, the second hall sensing part 22 is then mounted on rear panel 20 and remain stationary, and such the The connection of two hall sensing parts 22 is relatively stable, is not easy that other influences are interfered or generated with other structures, both favorably Configuration inside optimization door lock is also beneficial to improve the use reliability of the second hall sensing component.

Certainly, the first magnetic part also can be arranged directly on front handlebar, or is arranged to exist at other with front handlebar and connect In the structure of dynamic relationship；Similarly, the second magnetic absorption member also can be arranged directly on rear handle, or be arranged in other and rear handle There are in the structure of continuous action relation.

Further, the first hall sensing part 15 when front handlebar 16 descends in the raw with the company of the first magnetic part 13 Line passes through the rotation axis of preceding commutation driving member 17, as shown in Figure 1, the first hall sensing part 15 is in nature shape in front handlebar 16 Positioned at the surface or underface of the first magnetic part 13 when under state, as shown in Figure 1.

Rotation angle when being acted due to front handlebar 16 is generally 45 °, thus should during the first magnetic part 13 also around preceding The rotation axis of commutation driving member 17 45 ° of rotation (generally conllinear with the rotation axis of front handlebar 16), in this way, at front handlebar 16 When under nature (when not being rotated), if the line of the first hall sensing part 15 and the first magnetic part 13 changes before passing through To the rotation axis of driving member 17, then the distance between the first magnetic part 13 and the first hall sensing part 15 are maximum or minimum, because And during front handlebar 16 acts, the distance between the first magnetic part 13 and the first hall sensing part 15 can be gradually reduced Or be gradually increased, thus the position of the induction result of the first hall sensing part 15 and front handlebar 16 corresponds, and significantly improves The detection accuracy of first Hall subassembly.

First hall sensing part 15 when front handlebar 16 descends in the raw positioned at the surface of the first magnetic part 13 or The setting of underface, i.e. the first hall sensing part 15 and 13 face of the first magnetic part, such layout is more regular, is conducive to optimize Door lock internal structure.Preferably, the first hall sensing part 15 is located at the first magnetic part when front handlebar 16 descends in the raw 13 surface or underface and the rotation axis for passing through preceding commutation driving member 17 with the line of the first magnetic part 13.

Further, the second hall sensing part 22 when rear handle 24 descends in the raw with the company of the second magnetic part 21 The rotation axis of commutation driving member 23 after line warp, as shown in Figure 2；Second hall sensing part 22 is in nature shape in rear handle 24 Positioned at the surface or underface of the second magnetic part 21 when under state, as shown in Figure 2.

Rotation angle when due to the movement of rear handle 24 is generally 45 °, thus should during the second magnetic part 21 also around rear The rotation axis of commutation driving member 23 45 ° of rotation (generally conllinear with the rotation axis of rear handle 24), in this way, at rear handle 24 When under nature (when not being rotated), if the line warp of the second hall sensing part 22 and the second magnetic part 21 changes later To the rotation axis of driving member 23, then the distance between the second magnetic part 21 and the second hall sensing part 22 are maximum or minimum, because And during the movement of rear handle 24, the distance between the second magnetic part 21 and the second hall sensing part 22 can be gradually reduced Or be gradually increased, thus the position of the induction result of the second hall sensing part 22 and rear handle 24 corresponds, and significantly improves The detection accuracy of second Hall subassembly.

Second hall sensing part 22 when rear handle 24 descends in the raw positioned at the surface of the second magnetic part 21 or The setting of underface, i.e. the second hall sensing part 22 and 21 face of the second magnetic part, such layout is more regular, is conducive to optimize Door lock internal structure.Preferably, the second hall sensing part 22 is located at the second magnetic part when rear handle 24 descends in the raw The rotation axis of 21 surface or underface and the driving member 23 that commutates later with the line of the second magnetic part 21 warp.

Further, the quantity of the first magnetic part 13 is two, rotation of two the first magnetic parts 13 about front handlebar 16 Axisymmetrical setting, as shown in Figure 1；The quantity of second magnetic part 21 is two, and two the second magnetic parts 21 are about rear handle 24 Rotation axis be symmetrical arranged, as shown in Figure 2.

It is two by the quantitative design of the first magnetic part 13, and rotary shaft of two the first magnetic parts 13 about front handlebar 16 Line be symmetrical arranged, then when front handlebar 16 commutate when, another first magnetic part 13 just rotation to the first hall sensing part 15 The position matched, it is thus possible to be matched with the first hall sensing part 15, continue to realize the induction function for acting front handlebar 16 Can, to improve the versatility of door lock.Preferably, when one of them first magnetic part 13 and the first hall sensing part 15 cooperate When, another first magnetic part 13 is located at outside the induction range of the first hall sensing part 15.

It similarly, is two by the quantitative design of the second magnetic part 21, and two the second magnetic parts 21 are about rear handle 24 Rotation axis be symmetrical arranged, then when rear handle 24 commutate when, another second magnetic part 21 just rotation to the second Hall sense The position for answering part 22 to match, it is thus possible to be matched with the second hall sensing part 22, continue to realize to the movement of rear handle 24 Inducing function, to improve the versatility of door lock.Preferably, when one of them second magnetic part 21 and the second hall sensing part When 22 cooperation, another second magnetic part 21 is located at outside the induction range of the second hall sensing part 22.

Further, front panel 10 is equipped with preceding master control borad 12, as shown in Figure 1, preceding master control borad 12 and the first hall sensing Part 15 is electrically connected, and the signal that can be sent according to the first hall sensing part 15 works；Rear panel 20 is equipped with rear master control borad 28, As shown in Fig. 2, rear master control borad 28 and the second hall sensing part 22 are electrically connected, can be sent according to the second hall sensing part 22 Signal work.

Front panel 10 is equipped with preceding master control borad 12, and preceding master control borad 12 (can be with the electric connection of the first hall sensing part 15 Realized and be electrically connected by signal wire, be also possible to module by wireless communication and realize electric connection), and then can be according to first The signal that hall sensing part 15 is sent carries out corresponding information processing and information output, to realize corresponding function, for example unlocks, closes It locks, sound an alarm, issuing instruction of withdrawing a garrison, the mobile terminal (such as mobile phone, tablet computer, laptop, bracelet) to user Relevant information is sent, to improve the intelligence degree of door lock.Certainly, the first hall sensing part 15 can also pass through channel radio Believe that module is directly electrically connected with mobile terminal, to mobile terminal (such as mobile phone, tablet computer, laptop, the bracelet of user Deng) send relevant information.

Rear panel 20 is equipped with rear master control borad 28, and rear master control borad 28 (can be with the electric connection of the second hall sensing part 22 Realized and be electrically connected by signal wire, be also possible to module by wireless communication and realize electric connection), and then can be according to second The signal that hall sensing part 22 is sent carries out corresponding information processing and information output, to realize corresponding function, for example unlocks, closes It locks, sound an alarm, issuing instruction of withdrawing a garrison, the mobile terminal (such as mobile phone, tablet computer, laptop, bracelet) to user Relevant information is sent, to improve the intelligence degree of door lock.Certainly, the second hall sensing part 22 can also pass through channel radio Believe that module is directly electrically connected with mobile terminal, to mobile terminal (such as mobile phone, tablet computer, laptop, the bracelet of user Deng) send relevant information.

Further, it is additionally provided with display screen 14 and lock core 11 on front panel 10, as shown in Figure 1, being additionally provided on rear panel 20 Battery case 29, as shown in Figure 2.

Preferably, the first magnetic part 13, the second magnetic part 21 and third magnetic part 25 are permanent magnet.

It is highly preferred that the first magnetic part 13, the second magnetic part 21 and third magnetic part 25 are magnet.

Embodiment two

Difference with embodiment one is: on the basis of example 1, further, rear panel 20 is equipped with safety lock Knob 27, as shown in Fig. 2, door lock further include: third Hall subassembly, including third magnetic part 25 and with third magnetic part 25 match The third hall sensing part 26 of conjunction, one in third magnetic part 25 and third hall sensing part 26 is driven with safety lock knob 27 Connection, another is mounted on rear panel 20.

By setting third Hall subassembly, the movement of safety lock knob 27 is incuded using contactless hall principle, The problem of there is no induction pieces contact wears, flexible durable, long service life.Third Hall subassembly includes mutually matched third Magnetic part 25 and third hall sensing part 26, one in the two (can be directly connected with the transmission connection of safety lock knob 27 It is also possible to be indirectly connected) thus keep rotating synchronously with safety lock knob 27, another in the two is forward-mounted plate 10 On remain stationary, thus when safety lock knob 27 act when, the distance between third magnetic part 25 and third hall sensing part 26 It changes, so that the magnetic field that third hall sensing part 26 senses changes and then generates corresponding voltage change, then leads to The induction result for crossing third hall sensing part 26 can quick and precisely capture the action state of safety lock knob 27.

Wherein, third magnetic part 25 is arranged on safety lock knob 27, and third hall sensing part 26 is mounted on rear panel 20 On, as shown in Figure 2.

Third magnetic part 25 is arranged on rear commutation driving member 23, that is, realizes third magnetic part 25 and safety lock knob 27 direct-drive connection ensure that third magnetic part 25 can realize synchronous rotation, correspondingly, third with rear commutation rotating member Hall sensing part 26 is then mounted on rear panel 20 and remain stationary, and the connection of such third hall sensing part 26 is more steady It is fixed, it is not easy that other influences are interfered or generated with other structures, not only improves the configuration inside optimization door lock, also favorably In the use reliability for improving third hall sensing component.

Further, third hall sensing part 26 when safety lock knob 27 descends in the raw with third magnetic part 25 Line pass through safety lock knob 27 rotation axis, as shown in Figure 2；Third hall sensing part 26 is in safety lock knob 27 Positioned at the surface or underface of third magnetic part 25 when nature, as shown in Figure 2.

Rotation angle when being acted due to safety lock knob 27 is generally 45 °, thus third magnetic part 25 during this Rotation axis around safety lock knob 27 rotates 45 °, in this way, in safety lock knob 27 in the raw (when not being rotated) When lower, the rotation axis of the driving member 23 if line of third hall sensing part 26 and third magnetic part 25 warp commutates later, The distance between third magnetic part 25 and third hall sensing part 26 are maximum or minimum, thus in the mistake of the movement of safety lock knob 27 Cheng Zhong, the distance between third magnetic part 25 and third hall sensing part 26 can be gradually reduced or be gradually increased, thus third The induction result of hall sensing part 26 and the position of safety lock knob 27 correspond, and significantly improve the inspection of third Hall subassembly Survey precision.

Third hall sensing part 26 when safety lock knob 27 descends in the raw positioned at third magnetic part 25 just on Side or underface, i.e. third hall sensing part 26 and 25 face of third magnetic part are arranged, and such layout is more regular, are conducive to Optimize door lock internal structure.Preferably, third hall sensing part 26 is located at the when safety lock knob 27 descends in the raw The surface or underface of three magnetic parts 25 and the rotation axis for passing through safety lock knob 27 with the line of third magnetic part 25.

Further, the quantity of third magnetic part 25 is two, and two third magnetic parts 25 are about safety lock knob 27 Rotation axis is symmetrical arranged, as shown in Figure 2.

It is two by the quantitative design of third magnetic part 25, and rotation of two third magnetic parts 25 about safety lock knob 27 Shaft axis be symmetrical arranged, then when door lock commutate when, another third magnetic part 25 just rotation to third hall sensing part 26 The position matched, it is thus possible to be matched with third hall sensing part 26, continue to realize the sense for acting safety lock knob 27 Function is answered, to improve the versatility of door lock.Preferably, when one of third magnetic part 25 and third hall sensing part 26 When cooperation, another third magnetic part 25 is located at outside the induction range of third hall sensing part 26.

Further, rear master control borad 28 is electrically connected with third hall sensing part 26, can be according to third hall sensing part The 26 signal work sent.

Afterwards master control borad 28 and third hall sensing part 26 be electrically connected (can be and realized and be electrically connected by signal wire, Can be by wireless communication module realize be electrically connected), and then can according to third hall sensing part 26 send signal into The corresponding information processing of row and information output, to realize corresponding function, for example unlock, are latched, sounding an alarm, issuing finger of withdrawing a garrison It enables, send relevant information to the mobile terminal (such as mobile phone, tablet computer, laptop, bracelet) of user, to improve The intelligence degree of door lock.Certainly, third hall sensing part 26 can also by wireless communication module directly with mobile terminal electricity Property connection, to the mobile terminal (such as mobile phone, tablet computer, laptop, bracelet) of user send relevant information.

Embodiment three

Difference with embodiment two is: the quantity of third hall sensing part 26 is two, two third hall sensing parts 26 about safety lock knob 27 rotation axis be symmetrical arranged.

It is two by the quantitative design of third hall sensing part 26, and two third hall sensing parts 26 are revolved about safety lock The rotation axis of button 27 is symmetrical arranged, then when door lock commutates, third magnetic part 25 just rotation to another third Hall The position that induction pieces 26 match, it is thus possible to be matched with another third hall sensing part 26, continue to realize to safety lock The inducing function that knob 27 acts, to improve the versatility of door lock.Preferably, when third magnetic part 25 and one of them the When three hall sensing parts 26 cooperate, outside the induction range in another third hall sensing part 26.

Example IV

Difference with embodiment two is: the quantity of the first hall sensing part 15 is two, two the first hall sensing parts 15 about front handlebar 16 rotation axis be symmetrical arranged；The quantity of second hall sensing part 22 is two, two the second Hall senses Part 22 is answered to be symmetrical arranged about the rotation axis of rear handle 24.

It is two by the quantitative design of the first hall sensing part 15, and two the first hall sensing parts 15 are about front handlebar 16 Rotation axis be symmetrical arranged, then when front handlebar 16 commutates, the first magnetic part 13 just rotation to another the first Hall The position that induction pieces 15 match, it is thus possible to be matched with another the first hall sensing part 15, continue to realize to front handlebar The inducing function of 16 movements, to improve the versatility of door lock.Preferably, when the first magnetic part 13 with one of them first suddenly When your induction pieces 15 cooperate, outside the induction range in another the first hall sensing part 15.

It similarly, is two by the quantitative design of the second hall sensing part 22, and two the second hall sensing parts 22 are about rear The rotation axis of handle 24 is symmetrical arranged, then when rear handle 24 commutates, the second magnetic part 21 just rotation to another the The position that two hall sensing parts 22 match, it is thus possible to be matched with another the second hall sensing part 22, continue realization pair The inducing function that handle 24 acts afterwards, to improve the versatility of door lock.Preferably, when the second magnetic part 21 and one of them When second hall sensing part 22 cooperates, outside the induction range in another the second hall sensing part 22.

The structure and working principle of door lock provided by the present application is described below with reference to a specific embodiment.

A kind of intelligent door lock, comprising: lock core 11, front panel master control borad (master control borad 12 before i.e.), front panel magnet (i.e. first Magnetic part 13), display screen 14, front panel Hall subassembly (i.e. the first hall sensing part 15), front handlebar 16, front panel commutation transmission Part (commutate driving member 17 before i.e.), rear panel magnet (i.e. the second magnetic part 21+ third magnetic part 25), rear panel Hall subassembly (i.e. the second hall sensing part 22+ third hall sensing part 26), rear panel commutation driving member (commutate driving member 23 after i.e.), battery Box 29, rear handle 24, rear panel master control borad (master control borad 28 after i.e.), safety lock knob 27.

The specific implementation process is as follows:

Front panel module

A) front panel magnet is symmetrically installed loaded on the commutation driving member of front handlebar 16；

B) front panel Hall subassembly and front panel magnet are located above handle, are connected with front panel master control borad to just；

C) front handlebar 16 is rotated, magnetic flux changes, and front panel Hall subassembly generates corresponding voltage change, and will knot Fruit is transferred to front panel master control borad；

D) front panel master control borad carries out corresponding information processing and information output.

Plate module below

E) rear panel magnet is symmetrically installed loaded on the commutation driving member and safety lock knob 27 of rear handle 24；

F) rear panel Hall subassembly and rear panel magnet are located on rear panel master control borad to just；

G) handle 24 or spin safe lock knob 27 after rotating, and magnetic flux changes, the generation pair of rear panel Hall subassembly The voltage change answered, and result is transferred to rear panel master control borad；

H) rear panel master control borad carries out corresponding information processing and information output.

In conclusion door lock provided by the utility model is used by the first Hall subassembly of setting and the second Hall subassembly Contactless hall principle incudes the movement of front handlebar and rear handle, compared to the prior art in contact induction side The problem of formula, there is no induction pieces contact wears, thus flexible durable, long service life；And the movement of front handlebar and rear handle It can quickly be captured using contactless induction mode, compared to the movement for only incuding one of handle or two one or two For the different induction mode of hand getting, the accuracy of detection was both improved, the working principle of door lock has been in turn simplified, is conducive to letter Change the control structure inside door lock.

In the present invention, term " first ", " second ", " third " are only used for the purpose of description, and should not be understood as Indication or suggestion relative importance；Term " multiple " then refers to two or more, unless otherwise restricted clearly.Term " peace Dress ", " connected ", " connection ", the terms such as " fixation " shall be understood in a broad sense, can also be with for example, " connection " may be a fixed connection It is to be detachably connected, or be integrally connected；" connected " can be directly connected, can also be indirectly connected through an intermediary.It is right For those skilled in the art, can understand as the case may be above-mentioned term in the present invention specifically contain Justice.

In the description of the utility model, it is to be understood that term " on ", "lower", "left", "right", "front", "rear" etc. refer to The orientation or positional relationship shown be based on the orientation or positional relationship shown in the drawings, be merely for convenience of description the utility model and Simplify description, rather than the device or unit of indication or suggestion meaning there must be specific direction, with specific orientation construction And operation, it is thus impossible to be construed as a limitation of the present invention.

In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc. Mean that particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least the one of the utility model In a embodiment or example.In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment Or example.Moreover, the particular features, structures, materials, or characteristics of description can be in any one or more embodiment or examples In can be combined in any suitable manner.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (11)

1. a kind of door lock characterized by comprising

Front panel and rear panel；

Front handlebar and rear handle are separately mounted on the front panel and the rear panel；

First Hall subassembly, it is described including the first magnetic part and the first hall sensing part matched with first magnetic part One in first magnetic part and the first hall sensing part is sequentially connected with the front handlebar, another be mounted on it is described before On panel；

Second Hall subassembly, it is described including the second magnetic part and the second hall sensing part matched with second magnetic part One in second magnetic part and the second hall sensing part with it is described after handle be sequentially connected, another be mounted on it is described after On panel.

2. door lock according to claim 1, which is characterized in that further include:

Preceding commutation driving member and rear commutation driving member, are fixedly linked, for switching respectively with the front handlebar and the rear handle The operative orientation of the front handlebar and the rear handle.

3. door lock according to claim 2, which is characterized in that

First magnetic part is arranged on the preceding commutation driving member, and the first hall sensing part is mounted on the front panel On；And/or

The second magnetic part setting commutates on driving member after described, and the second hall sensing part is mounted on the rear panel On.

4. door lock according to claim 3, which is characterized in that

The first hall sensing part passes through when the front handlebar descends in the raw with the line of first magnetic part The rotation axis of commutation driving member before described；And/or

The first hall sensing part is when the front handlebar descends in the raw positioned at the surface of first magnetic part Or underface.

5. door lock according to claim 3, which is characterized in that

The second hall sensing part passes through when handle descends in the raw after described with the line of second magnetic part The rotation axis of commutation driving member after described；And/or

The second hall sensing part is when handle descends in the raw after described positioned at the surface of second magnetic part Or underface.

6. door lock according to any one of claim 1 to 5, which is characterized in that

The quantity of first magnetic part is two, and two first magnetic parts are symmetrical about the rotation axis of the front handlebar Setting, alternatively, the quantity of the first hall sensing part is two, two the first hall sensing parts are about the front handlebar Rotation axis be symmetrical arranged；And/or

The quantity of second magnetic part is two, and two second magnetic parts are symmetrical about the rotation axis of the rear handle Setting, alternatively, the quantity of the second hall sensing part is two, two the second hall sensing parts are about the rear handle Rotation axis be symmetrical arranged.

7. door lock according to any one of claim 1 to 5, which is characterized in that

The rear panel is equipped with safety lock knob, the door lock further include:

Third Hall subassembly, it is described including third magnetic part and the third hall sensing part matched with the third magnetic part One in third magnetic part and the third hall sensing part is sequentially connected with the safety lock knob, another is mounted on institute It states on rear panel.

8. door lock according to claim 7, which is characterized in that

The third magnetic part is arranged on the safety lock knob, and the third hall sensing part is mounted on the rear panel On.

9. door lock according to claim 8, which is characterized in that

The third hall sensing part when the safety lock knob descends in the raw with the line of the third magnetic part By the rotation axis of the safety lock knob；And/or

The third hall sensing part the safety lock knob in the raw when positioned at the third magnetic part just on Side or underface.

10. door lock according to claim 7, which is characterized in that

The quantity of the third magnetic part is two, rotation axis of two third magnetic parts about the safety lock knob It is symmetrical arranged；Or

The quantity of the third hall sensing part is two, and two third hall sensing parts are about the safety lock knob Rotation axis is symmetrical arranged.

11. door lock according to any one of claim 1 to 5, which is characterized in that

The front panel is equipped with preceding master control borad, and the preceding master control borad and the first hall sensing part are electrically connected, Neng Gougen The signal work sent according to the first hall sensing part；And/or

The rear panel is equipped with rear master control borad, and the rear master control borad and the second hall sensing part are electrically connected, Neng Gougen The signal work sent according to the second hall sensing part.