CN209163638U - The detecting mechanism of electric control lock - Google Patents

Abstract

The utility model discloses a kind of detecting mechanism of electric control lock, it can detect and set the door-plate that the electric control lock is installed on a L.H.flapped door or R.H.flapped door, comprising: a lock bolt can be located at blocking or unlocked state by driving；One shell has a room；One operating element is installed on the shell, can be relative to the housing into rotation；One drive rod, lock bolt movement can be operated by connecting the operating element；One motor is installed on the room of the shell；One runner is subjected to the driving of the motor, connects the operating element and the lock bolt by the drive rod, which has one first touch control part and one second touch control part；One control device, it is installed on the room of the shell, one first inductive switch is installed on the control device, first inductive switch has a first state, the second state and a third state, and it generates one first signal, one second signal and a third signal, first inductive switch respectively and is subjected to the operation of the first touch control part and the second touch control part of the runner.

Description

The detecting mechanism of electric control lock

Technical field

The utility model relates to a kind of detecting mechanisms of electric control lock, can be after the electric control lock is installed on a door-plate, can benefit The electric control lock is detected with one first inductive switch and is installed as L.H.flapped door or R.H.flapped door, when due to detecting L.H.flapped door or R.H.flapped door, only An inductive switch need to be used, space configuration can be simplified and reduce cost.

Background technique

The safety of the body life property of house person is safeguarded in the effect of door lock naturally, is event, and the design of door lock is that direction is easy to grasp Use and be difficult to be opened by unworthy one's share of expenses for a joint undertaking and develop, the door lock generallyd use now so seen, whether interior door lock or Outdoor big door lock is largely all made of the mechanical door lock of key open-close type, such to control door lock using key open-close type, real Simple structure is tended to so electric control lock increasingly flourishes with making rapid progress for epoch for inconvenience, it is cheap, And general electronic lock, detecting left and right opening door all utilize two inductive switches on the market, therefore the utility model is by electric control lock Detecting mechanism creation makes structure only to need an inductive switch that can detect the door-plate that the electric control lock is installed on L.H.flapped door or R.H.flapped door Make it is more simple, to reduce manufacturing cost.

Utility model content

In view of this, need to only use one the main purpose of the utility model is to provide a kind of detecting mechanism of electric control lock A inductive switch can detect the door-plate that the electric control lock is installed on L.H.flapped door or R.H.flapped door, reduce the electric control lock manufacturing cost, Simple structure.

Based on this, the utility model mainly uses utilising techniques, Lai Shixian above-mentioned purpose.

A kind of detecting mechanism of electric control lock can be detected and set the door-plate that the electric control lock is installed on a L.H.flapped door or R.H.flapped door, It include: a lock bolt that can be located at blocking or unlocked state by driving；One shell has a room；One operating element, peace It, can be relative to the housing into rotation loaded on the shell；One drive rod, lock bolt movement can be operated by connecting the operating element；One motor, It is installed on the room of the shell；One runner is subjected to the driving of the motor, connects the operating element and the lock by the drive rod Door bolt, the runner have one first touch control part and one second touch control part；One control device is installed on the room of the shell, the control One first inductive switch is installed on device, which has a first state, the second state and a third state, And one first signal, one second signal and a third signal are generated respectively, which receives the first touching of the runner The operation in control portion and the second touch control part；When the electric control lock is installed on the door-plate of R.H.flapped door, which is located at unlocked state, this turn First touch control part of wheel, which is placed exactly in, presses first inductive switch, and first inductive switch is the first state at this time, and is produced Raw first signal；When the lock bolt is located at blocking, the second touch control part of the runner be placed exactly in press this first induction open It closes, first inductive switch is the third state at this time, and generates the third signal；When the electric control lock is installed on the door of L.H.flapped door Plate, when which is located at unlocked state, the second touch control part of the runner, which is placed exactly in, presses first inductive switch, at this time this One inductive switch is the third state, and generates the third signal；When the lock bolt is located at blocking, the first touch-control of the runner Portion, which is placed exactly in, presses first inductive switch, and first inductive switch is the first state at this time, and generates first signal.

Further, when which is located at the first state or the third state, detect whether the lock bolt has really It is real to be located at unlock or locked position of coupler, with the positive and negative rotation for controlling the motor.

Further, which has one first touch control part, and the first touch control part of first inductive switch is in due course It positioned at the first state and generates first signal and is sent to the control device, the first touch control part of first inductive switch is in due course It positioned at second state and generates second signal and is sent to the control device, the first touch control part of first inductive switch is in due course Positioned at the third state and one third signal of generation is sent to the control device.

Further, the first touch control part of first inductive switch receives the first touch control part and the second touch control part of the runner Operation.

Further, when the door-plate for being installed on R.H.flapped door, which manually adjusts the first of the runner when unlocked state Touch control part is placed exactly in the first touch control part position for pressing first inductive switch, the first touch-control position of first inductive switch In the first state, first signal can be generated at this time and is transmitted to the control device, confirm then at a running gear and position, make this R.H.flapped door state is confirmed as in electric control lock detecting；When the door-plate for being installed on L.H.flapped door, which manually adjusts when unlocked state Second touch control part of the runner is placed exactly in the first touch control part position for pressing first inductive switch, first inductive switch First touch control part is located at the third state, can generate the third signal at this time and be transmitted to the control device, then at a running gear Confirmation positioning makes electric control lock detecting be confirmed as L.H.flapped door state.

Further, which there is a wheel to be formed by stacking up and down with a cam, which has a groove, and being formed should The both ends outer rim of groove is respectively provided with the first touch control part of the runner and the second touch control part of the runner.

Further, when the electric control lock is installed on the door-plate of R.H.flapped door, which is moved to blocking from unlocked state When, when unlocked state, the first touch control part of the initial cam presses the first touch control part of first inductive switch, first sense First touch control part of inductive switch, which is located at the first state and generates first signal, is sent to the control device, makes the runner inverse time Clock is driven rotation, and after the runner is driven a period of time, the first touch control part of the cam does not all press with the second touch control part First touch control part of first inductive switch, the first touch control part of first inductive switch are located at second state, can produce at this time Raw second signal is sent to the control device, that is, indicates that the lock bolt does not stretch out correctly, while the motor persistently drives the runner Rotation, when the second touch control part that the cam turns to the cam presses the first touch control part of first inductive switch, first sense First touch control part of inductive switch is located at the third state, can generate the third signal at this time and be sent to the control device, is i.e. the lock Door bolt is correct to be stretched out, and the lock bolt is made to be moved to blocking, which controls the motor, runner Ying Yishun when next time drives Clock rotation.

Further, the detecting mechanism of the electric control lock further includes a driving wheel for being subjected to motor driving, the transmission Wheel has a touch control part；One second inductive switch receives the operation of the touch control part of the driving wheel, controls the rotation of the motor really Stroke.

After above-mentioned technological means, the utility model passes through locking bolt, shell, operating element, drive rod, motor, runner And the structure design of control device, the operating element and the lock bolt are connected by the drive rod, which has one first touch-control Portion and one second touch control part；One first inductive switch is installed, which has one first shape on the control device State, the second state and a third state, and one first signal, one second signal and a third signal are generated respectively, first sense Inductive switch is subjected to the operation of the first touch control part and the second touch control part of the runner；When the electric control lock is installed on the door of R.H.flapped door Plate, when which is located at unlocked state, the first touch control part of the runner, which is placed exactly in, presses first inductive switch, at this time this One inductive switch is the first state, and generates first signal；When the lock bolt is located at blocking, the second touch-control of the runner Portion, which is placed exactly in, presses first inductive switch, and first inductive switch is the third state at this time, and generates the third signal； When the electric control lock is installed on the door-plate of L.H.flapped door, which is located at unlocked state, the second touch control part of the runner is placed exactly in First inductive switch is pressed, first inductive switch is the third state at this time, and generates the third signal；The lock bolt is located at When blocking, the first touch control part of the runner, which is placed exactly in, presses first inductive switch, and first inductive switch is at this time The first state, and first signal is generated, to need to only use an inductive switch, the electric control lock can be detected and be installed on a left side The door-plate of enabling or R.H.flapped door reduces the electric control lock manufacturing cost, simple structure.

Detailed description of the invention

Fig. 1 is the utility model preferred embodiment, one inside lock body of display, an outside lock body, a fixed plate, a lock The stereogram exploded view of door bolt and a door-plate.

Fig. 2 is the utility model preferred embodiment, shows the stereogram exploded view of the inside lock body.

Fig. 3 is the utility model preferred embodiment, shows the stereogram exploded view of the inside lock body other direction.

Fig. 4 is the utility model preferred embodiment, shows the perspective view of a driving wheel.

Fig. 5 is the utility model preferred embodiment, shows the perspective view of a runner.

Fig. 6 is the utility model preferred embodiment, shows the perspective view of the runner other direction.

Fig. 7 is the utility model preferred embodiment, shows that the inside lock body removes the plan view of a cover board.

Fig. 8 is the utility model preferred embodiment, and when the inside, lock body is installed on R.H.flapped door, which is located at unlock The local element floor map of state.

Fig. 9 is the utility model preferred embodiment, and when the inside, lock body is installed on R.H.flapped door, which is located at part The local element floor map of stretching state.

Figure 10 is the utility model preferred embodiment, and when the inside, lock body is installed on R.H.flapped door, which, which is located at, closes The local element floor map of lock status.

Figure 11 is the utility model preferred embodiment, and when the inside, lock body is installed on L.H.flapped door, which is located at solution The local element floor map of lock status.

Figure 12 is the utility model preferred embodiment, and when the inside, lock body is installed on L.H.flapped door, which is located at office The local element floor map of portion's stretching state.

Figure 13 is the utility model preferred embodiment, and when the inside, lock body is installed on L.H.flapped door, which, which is located at, closes The local element floor map of lock status.

[symbol description]

2 inside lock body, 20 decorative base

21 decorative cover, 210 power supply

22 shell, 221 room

222 power supply room, 223 motor room

224 operating element mounting hole, 225 protrusion

226 pin, 227 hole

229 second screw, 23 operating element

231 grip part, 232 central siphon portion

233 square pole, 234 hole

235 groove, 24 motor

241 turbine, 25 driving wheel

250 hole, 251 gear

252 friction pulley, 2521 contact portion

2522 basket sky portion, 253 touch-control wheel

2531 touch control part, 26 runner

260 class holes 261 wheel

2611 holding part, 2612 arcuation groove

262 cam, 2620 groove

2621 first touch control part, 2,622 second touch control part

2623 apertures (square hole), 2624 macropore (circular hole)

263 rubber, 27 control device

271 first inductive switch, 2,711 first touch control part

272 second inductive switch, 2,721 second touch control part

28 cover board, 281 adapter mounting hole

282 through-hole, 283 hole

29 fixed plate, 291 through-hole

292 hole, 293 screw hole

294 first screw 30a adapters

301 through-hole, 3011 raised line (holding section)

3012 square hole 30b adapters

302 through-hole, 3021 raised line (holding section)

3022 cross bore 30c adapters

303 through-hole, 3031 raised line (holding section)

3032 1 word hole, 4 outside lock body

41 lock group, 411 drive rod

412 screw hole, 6 lock bolt

61 hole, 62 rod piece accommodating hole

8 door-plate, 81 lock bolt mounting hole

82 lock body mounting holes.

Specific embodiment

It as shown in Figure 1 to Figure 3, is a kind of preferred embodiment of the detecting mechanism of electric control lock of the utility model, this is detectd It surveys mechanism and is installed on an inside lock body 2；The inside lock body 2 and an outside lock body 4 and a lock bolt 6 can be installed by a fixed plate 29 In on a door-plate 8, which can operate the lock bolt 6 with the outside lock body 4 and be latched or unlock, the inside lock body 2, packet It includes: a decorative base 20, an operating element 23, a motor 24, a driving wheel 25, a runner 26, a control device 27 and a cover board 28 etc..

As shown in Figure 1 to Figure 3, wherein the decorative base 20, comprising: a decorative cover 21 and a shell 22, the shell 22 are formed There is a power supply room 222 can accommodate a power supply 210 for one room 221, the top of the shell 22, and lower section has a motor room 223, form an operating element mounting hole 224 between the power supply room 222 and the motor room 223, and the power supply room 222 with There is a protrusion 225 to extend internally between the operating element mounting hole 224, there is a pin at the neighbouring motor room 223 226, and region of different sizes is formed in the room 221 of the shell 22 to accommodate above-mentioned each element.

As shown in Figure 1 to Figure 3, the operating element 23 has a grip part 231 and a central siphon portion 232, the central siphon portion 232 The grip part 231 is connected, which can partially wear the operating element mounting hole 224 of the shell 22, and in the central siphon portion 232 periphery is partially formed the square pole 233 of predetermined shape, and in the at the end of the axial position in the central siphon portion 232 formed a hole 234 with The end periphery in the central siphon portion 232 forms two holding sections 235 being spaced apart (the utility model is groove 235).

As shown in Figure 1 to Figure 3, which is mountable in the motor room 223 of the shell 22, which can for one A turbine 241 is installed in the motor 24 of positive and negative rotation, 24 front end of motor.

As shown in Figures 1 to 4, which is folded by a gear 251, a friction pulley 252 and about a 253 touch-control wheel It closes and forms (can be one of the forming), which can be meshed to use as slowing down with the turbine 241 of the motor 24, and can change The excircle of the direction of transfer of varying force, the friction pulley 252 has a contact portion 2521 and a basket sky portion 2522, the utility model The contact portion 2521 can be multiple teeth or friction media, such as rubber, 253 excircle of touch-control wheel has a touch control part 2531, and the center of the driving wheel 25 has a hole 250, can be placed in the pin 226 of the shell 22, and removable mounting is in the shell 22 In room 221.

As shown in Figures 1 to 6, the runner 26, there is a wheel 261 and about 262 cam, which to be formed by stacking, (can be integrated into Shape), the center of the runner 26 has a class hole 260, the class hole 260, including an aperture 2623 and a macropore 2624, this is small Hole 2623 forms the similar square hole of cross-sectional shape matched with the square pole 233 in the central siphon portion 232 of the operating element 23 2623, which is a circular hole, which has a holding part 2611, the mountable rubber of holding part 2611 Glue 263 or the medium etc. of a friction, can engage the friction pulley 252 of the driving wheel 25 in due course, and the square hole 2623 of the runner 26 is pacified On the square pole 233 in the central siphon portion 232 loaded on the operating element 23, so that the runner 26 is installed on the central siphon of the operating element 23 In portion 232, and the macropore 2624 of the runner 26 is placed in a check retaining ring (not shown), and be fastened on the operating element In 23 central siphon portion 232, it to limit the axial movement of the runner 26, rotate together the runner 26 can with the operating element 23； The another side of the wheel 261 has an arcuation groove 2612, the protrusion 225 of the shell 22 can be placed in, to limit the runner 26 Rotational angle, 262 periphery of cam have a groove 2620, and the both ends outer rim for forming the groove 2620 is respectively provided with one first touching Control portion 2621 and one second touch control part 2622.

As shown in Fig. 2, Fig. 3 and Fig. 7, which is mountable to the room 221 of the shell 22, thereon configured with control Circuit and chip (not shown) processed on the control device 27 and is equipped with one first inductive switch 271 and one second induction The switch 272(inductive switch can be microswitch, limit switches, infrared inductor or optical sensor etc.), wherein this One inductive switch 271 has one first touch control part 2711, and the first touch control part 2621 of the cam 262 can press first induction and open The first touch control part 2711 for closing 271 makes the first touch control part 2711 of first inductive switch 271 be located at touched one first It sets (the utility model also can be a first state) and generates one first signal, the second touch control part 2622 of the cam 262 can be touched The first touch control part 2711 for pressing first inductive switch 271 makes the first touch control part 2711 of first inductive switch 271 be located at quilt The third place (the utility model also can be a third state) and one third signal of generation pressed, makes first inductive switch 271 can detect whether the lock bolt 6 has locking really or unlock, and control the positive and negative rotation of the motor 24, when first inductive switch When 271 the first touch control part 2711 is not touched, then the first touch control part 2711 of first inductive switch 271 is located at a second It sets (the utility model also can be one second state) and generates one second signal, which is that the representative lock bolt 6 is not certain Locking or unlock, second inductive switch 272 have one second touch control part 2721, the second touch-control of second inductive switch 272 Portion 2721 is subjected to the operation of the touch control part 2531 of the touch-control wheel 253 of the driving wheel 25, controls the rotation of the motor 24 when can be really Stroke.

As shown in Figure 1 to Figure 3, the cover board 28 is mountable to the room 221 of the shell 22, to cover said elements, the lid 28 center of plate has an adapter mounting hole 281, and one of multiple adapter 30a, 30b, 30c are mountable to the adapter mounting hole 281, one end center of multiple adapter 30a, 30b, 30c are respectively square hole 3012, cross bore 3022 and a word hole 3032, another End is respectively provided with a through-hole 301,302,303, is respectively formed two holding sections being spaced apart around the through-hole 301,302,303 3011,3021,3031 (the utility model is raised line 3011,3021,3031), each adapter 30a, 30b, 30c can be according to outer The shape of the drive rod 411 of side chain body 4 is arranged in pairs or groups, and chooses adapter 30b, and the through-hole 302 of adapter 30b is arranged In 232 end of central siphon portion of the operating element 23, and two grooves of two raised lines 3021 and the operating element 23 of adapter 30b 235 fasten, and form inside lock body 2 after above-mentioned each element assembling.

As shown in Figure 1 to Figure 3, the fixed plate 29, center have a through-hole 291, and the two sides of the through-hole 291, which have to separate, to be set The hole 292 set, and diagonally there are two screw holes 293 being spaced apart；The lock bolt 6 is mountable to the lock bolt mounting hole of the door-plate 8 81, which is respectively arranged in the two sides of the lock body mounting hole 82 of the door-plate 8 with the fixed plate 29；Two first screws 294, two holes 292 and two holes 61 possessed by the lock bolt 6 that the fixed plate 29 can be worn respectively, and it is screwed into the outside lock body respectively 4 two-screw hole 412；And two second screws 229, two holes 227 of the shell 22 can be worn respectively, and it is screwed into the fixed plate respectively 29 two-screw hole 293, the inside lock body to be fixed in the fixed plate 29, while the drive rod 411 of the outside lock body 4 The other end wear the rod piece accommodating hole 62 of the lock bolt 6, and then be inserted in adapter 30b, finally cover the decorative cover 21, and be somebody's turn to do Inside lock body 2 also can further install a bluetooth module.

As shown in Figure 1 to Figure 3, opposite outside lock body 4, can for Key element, identification of fingerprint element, remote control element or Tradition machinery formula lock body etc. (the utility model is disclosed as tradition machinery formula lock body), wherein the outside lock body 4, an including lock group 41 The drive rod 411 can be connected, which can first wear the rod piece accommodating hole 62 of the lock bolt 6, then be inserted in this suitable turn Square hole 3012, cross bore 3022 and a word hole 3032 of connector 30a, 30b, 30c are located at locking and unlock to drive the lock bolt 6 Position between move.

As shown in Fig. 1 to Fig. 3 and Fig. 8 to Figure 10, the electric control lock of the utility model, when the door-plate 8 for being installed on R.H.flapped door Afterwards, as shown in figure 8, when the lock bolt 6 is located at unlocked state, the first touch control part 2621 for manually adjusting the runner 26 is placed exactly in touching 2711 position of the first touch control part of first inductive switch 271 is pressed, the first touch control part 2711 of first inductive switch 271 is located at The first position can generate first signal at this time and be transmitted to the control device 27, then at a running gear (do not show in figure, can For handset device, the running gear of the utility model can also be changed to the key on the lock body of inside) confirmation positioning, make the electric control lock R.H.flapped door state is confirmed as in detecting, if the control device 27 receives first signal later, which is located at unlock shape State will make the motor 24 drive 26 inverse clock of runner (direction such as Fig. 8, arrow A) rotation, if the control device 27 next time When receiving the third signal, which is located at blocking, and the motor 24 will be made next time to drive 26 clockwise of runner (direction such as Figure 10, arrow B) rotates, at this time rubber 263 of the basket sky portion 2522 of the driving wheel 25 to the just runner 26；Work as use Person operates the operating element 23 with manual manipulation mode or when the lock group 41 is latched, and only to rotate the operating element 23, can Directly to drive 26 inverse clock of runner to rotate (such as arrow A), due to the operating element 23, the drive rod 411 and the runner 26 It is to interlock together, therefore the drive rod 411 can drive the lock bolt 6, the lock bolt 6 is made to be moved to blocking (such as Figure 10), simultaneously should Second touch control part 2622 of runner 26 is located at the position for pressing the first touch control part 2711 of first inductive switch 271, make this First touch control part 2711 of one inductive switch 271 is located at the third place, and issues the third signal and be sent to the control device 27.Identical reason, if the runner 26 to be allowed to be moved to unlocked state with manual manipulation mode, as long as being turned with above-mentioned opposite direction The operating element 23 is moved, certain lock group 41 also has and the identical function of operating element 23, repeats no more in this.

Such as Fig. 1 to Figure 10, when the utility model electric control lock, after being installed on the door-plate 8 of R.H.flapped door, and will be with electronics It is to input a locking signal extremely when mode of operation allows the runner 26 to turn to the blocking of Figure 10 by the unlocked state of Fig. 8 The control device 27, which drives the motor 24 to rotate the turbine 241 in turn, and drives the biography by the turbine 241 The gear 251 of driving wheel 25 rotates the friction pulley 252 of the driving wheel 25, from the basket sky portion 2522 of the friction pulley 252 to just this turn Wheel 26, the touch control part 2531 of the touch-control wheel 253 of the driving wheel 25 presses the second touch control part of second inductive switch 272 at this time 2721, and (such as Fig. 9) when the contact portion 2521 contacts the rubber 263 of the runner 26 is turned to, due to the relationship of frictional force, this turn Wheel 26 is driven by the friction pulley 252, this turn when one circle of the friction pulley 252 rotation returns to the basket sky portion 2522 to the just runner 26 When taking turns 256, since the touch control part 2531 of the touch-control wheel 253 of the driving wheel 25 presses the second touching of second inductive switch 272 again Control portion 2721, the motor 24 stops operating with the driving wheel 25 at this time, which is the position (such as Figure 10) for reaching locking, this Shi Ruo rotates the runner 26 with the operating element 23, since the runner 26 does not contact with the driving wheel 25, so the runner 26 can be easily rotated；Wherein the excircle arc length of the contact portion 2521 of the friction pulley 252 is roughly equivalent to the 110 of the runner 26 Arc length corresponding to the excircle of degree.So one circle of the friction pulley 252 rotation, the runner 26 about rotate 110 degree, the opposite behaviour Making element 23 also can rotate 110 degree (because clearances of the cross bore 3022 of the drive rod 411 and the adapter), that is, the lock bolt 6 from unlocked state to blocking, and when unlocked state, the first touch control part 2621 of the initial cam 262 presses first sense First touch control part 2711 of inductive switch 271, the first touch control part 2711 of first inductive switch 271 are located at the first position and produce Raw first signal is sent to the control device 27, and 26 inverse clock of runner (direction such as Fig. 8, arrow A) is made to be driven rotation, when After the runner 26 is driven a period of time, the first touch control part 2621 and the second touch control part 2622 of the cam 262 all do not press this First touch control part 2711 of the first touch control part 2711 of the first inductive switch 271, first inductive switch 271 is located at the second (such as Fig. 9) is set, second signal can be generated at this time and be sent to the control device 27, that is, indicates that the lock bolt 6 is not correct and stretches out, together When the motor 24 persistently drive the runner 26 rotate, when the second touch control part 2622 that the cam 262 turns to the cam 262 presses First touch control part 2711 of first inductive switch 271, the first touch control part 2711 of first inductive switch 271 be located at this Three positions (such as Figure 10) can generate the third signal at this time and be sent to the control device 27, i.e., the lock bolt 6 correctly stretches out, and make this Lock bolt 6 is moved to blocking (such as Figure 10), which controls the motor 24,26 Ying Yishun of runner when next time drives Clock (direction such as Figure 10, arrow B) rotation.

Such as Fig. 1 to Figure 10, when the electric control lock of the utility model, after being installed on R.H.flapped door, and will be with electronic operation side It is to input one and correctly authenticate signal extremely when formula allows the runner 26 to turn to the unlocked state of Fig. 8 by the blocking of Figure 10 The control device 27, which drives the motor 24 to rotate the turbine 241 in turn, and drives the biography by the turbine 241 The gear 251 of driving wheel 25 rotates the friction pulley 252 of the driving wheel 25, from the basket sky portion 2522 of the friction pulley 252 to just this turn Wheel 26, the touch control part 2531 of the touch-control wheel 253 of the driving wheel 25 presses the second touch control part of second inductive switch 272 at this time 2721, and (such as Fig. 9) when the contact portion 2521 contacts the rubber 263 of the runner 26 is turned to, due to the relationship of frictional force, this turn Wheel 26 is driven by the friction pulley 252, when one circle of the friction pulley 252 rotation returns to the basket sky portion 2522 to the just runner 26, by The second touch control part 2721 of second inductive switch 272 is pressed again in the touch control part 2531 of the touch-control wheel 253 of the driving wheel 25, this When the motor 24 stop operating with the driving wheel 25, which is to reach the position (such as Fig. 8) of unlock, if at this time with the operation Element 23 rotates the runner 26, since the runner 26 does not contact with the driving wheel 25, so the runner 26 is easy to be turned Dynamic, wherein the excircle arc length of the contact portion 2521 of the friction pulley 252 is roughly equivalent to the excircle institute of 110 degree of the runner 26 Corresponding arc length.So one circle of the friction pulley 252 rotation, the runner 26 about rotate 110 degree, the opposite operating element 23 also can 110 degree of rotation (because clearances of the cross bore 3022 of the drive rod 411 and the adapter), that is, the lock bolt 6 is from blocking To unlocked state, when blocking, the second touch control part 2622 of the initial cam 262 presses first inductive switch 271 First touch control part 2711 of the first touch control part 2711, first inductive switch 271 is located at the third place and generates third news Number it is sent to the control device 27, so that 26 clockwise of runner (direction such as Figure 10, arrow B) is driven rotation, when the runner 26 After being driven a period of time, the second touch control part 2622 and the first touch control part 2621 of the cam 262 all do not press first induction First touch control part 2711 of switch 271, the first touch control part 2711 of first inductive switch 271 are located at the second position (as schemed 9) second signal, can be generated at this time and is sent to the control device 27, that is, indicates the incorrect retraction of the lock bolt 6, while the motor 24 persistently drive the runner 26 to rotate, when the first touch control part 2621 that the cam 262 turns to the cam 262 presses first sense First touch control part 2711 of the first touch control part 2711 of inductive switch 271, first inductive switch 271 is located at the first position (such as Fig. 8), first signal can be generated at this time and be sent to the control device 27, is i.e. the correct retraction of lock bolt 6, be moved to the lock bolt 6 Unlocked state (such as Fig. 8), the control device 27 control the motor 24, next time driving when the runner 26 should with inverse clock (such as Fig. 8, The direction arrow A) rotation.

As shown in Fig. 1 to Fig. 3 and Figure 11 to Figure 13, the electric control lock of the utility model, when the door-plate 8 for being installed on L.H.flapped door When, the direction about inverse clock that only first adjust the operating element 23 is rotated by 90 °, then 411 water of drive rod with the outside lock body 4 Safety is loaded on adapter 30b, wherein as shown in figure 11, when which is located at unlocked state, manually adjusting the runner 26 Second touch control part 2622 is placed exactly in 2711 position of the first touch control part for pressing first inductive switch 271, which opens The first touch control part 2711 for closing 271 is located at the third place, can generate the third signal at this time and be transmitted to the control device 27, then (do not show in figure in a running gear, can be handset device, the running gear of the utility model can be also changed on the lock body of inside Key) confirmation positioning, so that electric control lock detecting is confirmed as L.H.flapped door state, if the control device 27 receives the third later When signal, which is located at unlocked state, and the motor 24 will be made next time to drive 26 clockwise of runner (such as Figure 10, arrow B Direction) rotation, if the control device 27 receives first signal, which is located at blocking, will make this next time Motor 24 drives 26 inverse clock of runner (direction such as Fig. 8, arrow A) rotation, and the basket sky portion 2522 of the driving wheel 25 is to just at this time The rubber 263 of the runner 26 is located at the state locally stretched out as shown in figure 12 for the lock bolt 6, as shown in figure 13, for the lock bolt Positioned at 6 blockings, the first touch control part 2621 of the runner 26 is placed exactly in the first touch-control for pressing first inductive switch 271 First touch control part 2711 of 2711 position of portion, first inductive switch 271 is located at the first position, can generate first news at this time Number be transmitted to the control device 27, manually with electronic operation mode with it is aforementioned roughly the same, be not added and repeat in this.

As shown in figure 9, breaking down suddenly, when the lock bolt 6 is located at part and stretches out state due to the rubber of the runner 26 263 be to be driven by the mode of friction with the transmission of the friction pulley 252 of the driving wheel 25, and the driving wheel 25 and the motor 24 Turbine 241 engages, so the driving wheel 25 cannot be rotated, only to rotate the operating element 23 at this time, which can be with this The friction pulley 252 of driving wheel 25 produces relative rotation, and the runner 26 and the lock bolt 6 can be made to be moved to the position of unlock.

Above-mentioned the utility model embodiment respectively saves, only all preferable possible embodiments of the utility model, non-for use To limit the implementation of the utility model, all construction feature and its spirit according to claims and the equivalence replacement that is or repair Change, should all be included in the scope of the utility model patent range.

Claims (5)

1. a kind of detecting mechanism of electric control lock can be detected and set the door-plate that the electric control lock is installed on a L.H.flapped door or R.H.flapped door, It is characterized in that, comprising:

One can be located at the lock bolt of blocking or unlocked state by driving；One shell has a room；One operating element, peace It, can be relative to the housing into rotation loaded on the shell；One drive rod, lock bolt movement can be operated by connecting the operating element；One horse It reaches, is installed on the room of the shell；One runner is subjected to the driving of the motor, by the drive rod connect the operating element with The lock bolt, the runner have one first touch control part and one second touch control part；

One control device is installed on the room of the shell, and one first inductive switch is equipped on the control device, first induction Switch has a first state, the second state and a third state, and generates one first signal, one second signal and one the respectively Three signals, first inductive switch receive the operation of the first touch control part and the second touch control part of the runner.

2. the detecting mechanism of electric control lock as described in claim 1, it is characterised in that: first inductive switch has one first touching First touch control part in control portion, first inductive switch, which is located at the first state in due course and generates first signal, is sent to the control Device, the first touch control part of first inductive switch, which is located at second state and generates second signal, is sent to control dress It sets, the first touch control part of first inductive switch, which is located at the third state in due course and generates the third signal, is sent to control dress It sets.

3. the detecting mechanism of electric control lock as claimed in claim 2, it is characterised in that: the first touch control part of first inductive switch Receive the operation of the first touch control part and the second touch control part of the runner.

4. the detecting mechanism of electric control lock as claimed in claim 3, it is characterised in that: the runner has a wheel and a cam or more It is formed by stacking, which has a groove, and the both ends outer rim for forming the groove is respectively provided with the first touch control part of the runner With the second touch control part of the runner.

5. the detecting mechanism of electric control lock as described in claim 1, it is characterised in that: further include one being subjected to what the motor drove Driving wheel, the driving wheel have a touch control part；One second inductive switch receives the operation of the touch control part of the driving wheel, controls really The rotational travel of the motor.