CN219327423U - Full-automatic lock body - Google Patents

Abstract

The utility model discloses a full-automatic lock body, which comprises a lock shell component and a buckle plate, wherein the lock shell component is arranged on a door body, the buckle plate is arranged on a door frame, a door magnet is arranged on the surface of the lock shell component, a locking magnet is arranged on the surface of the buckle plate, a motor component and a Hall circuit board are arranged on the inner side of the lock shell component, the Hall circuit board is electrically connected with the motor component, one side of the motor component is in transmission connection with a rack, a linkage piece is in transmission connection with the rack, and a main tongue component is in transmission connection with the linkage piece. The full-automatic lock body can realize full-automatic switching of the lock, has a simple structure, saves cost and is convenient to use.

Description

Full-automatic lock body

Technical Field

The utility model belongs to the technical field of intelligent door locks, and particularly relates to a full-automatic door lock body for courtyard doors.

Background

In recent years, along with the improvement of national living standard and the improvement of safety consciousness, more and more people begin to select electronic locks, and the electronic locks not only protect the household safety, but also are more safe for people to use.

However, the structure of the transmission part in the electronic lock on the market is generally complex, and the number of parts matched with each other is large, so that the manufacturing cost of the lock body is high, the production efficiency is low, the purchase cost of users is high, and the electronic lock is inconvenient for the masses to purchase and use, and is a main disadvantage of the traditional technology.

Disclosure of Invention

Aiming at the technical problems in the background art, the utility model aims to provide a full-automatic lock body which can realize full-automatic switching, has a simple structure and saves cost, so as to solve the technical problems in the background art.

In order to achieve the above purpose, the present utility model provides the technical scheme: a full-automatic lock body comprises a lock shell component and a buckle plate, wherein the lock shell component is arranged on a door body, the buckle plate is arranged on a door frame, a door magnet is arranged on the surface of the lock shell component, a locking magnet is arranged on the surface of the buckle plate, a motor component and a Hall circuit board are arranged on the inner side of the lock shell component, the Hall circuit board is electrically connected with the motor component, a rack is connected with one side of the motor component in a transmission manner, a linkage piece is connected with the rack in a transmission manner, and a main tongue component is connected with the linkage piece in a transmission manner.

Further, a transmission part is arranged on one side of the motor component, the rack is arranged on the transmission part, a transmission gear is arranged in the transmission part, a transmission tooth slot is arranged on the surface of the rack, and the transmission gear is meshed and connected with the transmission tooth slot.

Further, a first driving nail is arranged on the surface of the rack, a first driving groove is formed in the surface of the linkage piece, and the first driving nail is arranged in the first driving groove.

Further, a second driving nail is arranged on the surface of the linkage piece, a second driving groove is arranged on the surface of the main tongue component, and the second driving nail is arranged in the second driving groove.

Further, the rack surface is provided with an induction magnet.

Further, a transmission plate is arranged on one side of the rack, a pushing bar is arranged on one side of the rack, and the pushing bar is arranged at the lower side end of the transmission plate.

Further, the top of the transmission piece is provided with an inclined tongue poking piece, the top of the transmission piece is convexly provided with a pushing convex point, and the pushing convex point is arranged at the middle front side end of the inclined tongue poking piece.

Further, the front end of the inclined tongue poking piece is provided with an inclined tongue component, the rear side end of the inclined tongue component is provided with a pushing groove, and the front end of the inclined tongue poking piece is arranged in the pushing groove.

The utility model has the following advantages: the full-automatic lock body disclosed by the utility model can realize full-automatic switching of the lock, and is simple in structure, cost-saving and convenient to use.

Drawings

Fig. 1 is a schematic overall front view of the present utility model.

Fig. 2 is a schematic exploded view of the present utility model.

Fig. 3 is a schematic diagram of a locked state structure of the present utility model.

Fig. 4 is a schematic diagram of an unlocking state structure of the present utility model.

Reference numerals: a lock housing assembly 10; a buckle plate 20; a motor assembly 11; a transmission section 111; a rack 12; a transmission gear 112; a drive spline 121; a link plate 13; a first drive pin 122; a first transmission groove 131; a main tongue assembly 14; a second drive pin 132; a second transmission groove 141; a hall wiring board 15; an induction magnet 123; a door magnet 16; a lock magnet 21; a transmission plate 17; pushing the bar 124; a tongue pulling piece 18; pushing the bump 171; a tongue assembly 19; pushing groove 191.

Detailed Description

As shown in fig. 1 to 4, a full-automatic lock body comprises a lock shell assembly 10 and a buckle plate 20, wherein the lock shell assembly 10 is fixedly installed on a door body, the buckle plate 20 is fixedly installed on a door frame, and when in use, a lock tongue on one side of the lock shell assembly 10 passes through the buckle plate 20 to lock.

The inside fixed mounting of this lock shell subassembly 10 has motor element 11, this motor element 11 one side is equipped with drive portion 111, be equipped with rack 12 on this drive portion 111, be equipped with drive gear 112 in this drive portion 111, this rack 12 surface is equipped with transmission tooth groove 121, this drive gear 112 is connected with this transmission tooth groove 121 meshing, thereby make this rack 12 and this drive portion 111 between be connected in the transmission, when using, when this motor element 11 received the signal of outside circuit board transmission, this motor element 11 drive this drive gear 112 rotates, thereby make this drive gear 112 drive this rack 12 remove, convenient to use.

The rack 12 is provided with a linkage piece 13, the surface of the rack 12 is provided with a first driving nail 122, the surface of the linkage piece 13 is provided with a first driving groove 131, and the first driving nail 122 is arranged in the first driving groove 131, so that the linkage piece 13 is in driving connection with the rack 12, and when the novel electric power transmission rack is used, the rack 12 drives the linkage piece 13 to move through the first driving nail 122, and the novel electric power transmission rack is convenient to use.

The linkage piece 13 is provided with a main tongue component 14, the surface of the linkage piece 13 is provided with a second driving nail 132, the surface of the main tongue component 14 is provided with a second driving groove 141, and the second driving nail 132 is arranged in the second driving groove 141, so that the main tongue component 14 is in driving connection with the linkage piece 13, and when in use, the main tongue component 14 is driven by the linkage piece 13, thereby realizing the extending and retracting effects of the main tongue component 14, and being convenient to use.

The inside fixed mounting of this lock shell subassembly 10 has hall circuit board 15, is connected between this hall circuit board 15 and this motor assembly 11 electricity, and this rack 12 surface is equipped with induction magnet 123, and during the use, be equipped with the hall switch that is used for controlling this motor assembly 11 on this hall circuit board 15, when this rack 12 arrived the assigned position, when sensing the hall switch that closes on this hall circuit board 15 through this induction magnet 123 and lock in place, control this motor assembly 11 stop rotation, convenient to use.

The surface of the lock shell assembly 10 is provided with a door magnet 16, the surface of the buckle plate 20 is provided with a locking magnet 21, the door magnet 16 and the locking magnet 21 are oppositely arranged, the door magnet 16 is electrically connected with the Hall circuit board 15, when the lock shell assembly is used, when the locking magnet 21 and the door magnet 16 are combined, meanwhile, the door magnet 16 can transmit signals to the external circuit board, and the external circuit board can transmit signals to enable the motor assembly 11 to rotate, so that the lock shell assembly is convenient to use.

When the lock is used, when the door is closed, the door magnet 16 on the lock shell assembly 10 is matched with the locking magnet 21 on the buckle plate 20, meanwhile, the door magnet 16 transmits signals to an external circuit board, the external circuit board transmits signals to enable the motor assembly 11 to rotate, the motor assembly 11 drives the transmission gear 112 to rotate, the transmission gear 112 drives the rack 12 to move, meanwhile, the rack 12 drives the linkage piece 13 to move, the linkage piece 13 drives the main tongue assembly 14 to extend out and penetrate through the buckle plate 20 to lock, when the rack 12 reaches a designated position, a locking switch on the Hall circuit board 15 is sensed through the sensing magnet 123, and accordingly the Hall circuit board 15 controls the motor assembly 11 to stop rotating, an automatic locking effect is achieved, and the lock is simple and convenient to use.

The transmission plate 17 is arranged on one side of the rack 12, the pushing bar 124 is arranged at the lower side end of the transmission plate 17, and when the transmission plate 17 is used, the transmission plate is pushed to move through the pushing bar 124, so that the use is convenient.

The top of the transmission piece 17 is provided with a bevel tongue poking piece 18, the top of the transmission piece 17 is convexly provided with a pushing convex point 171, the pushing convex point 171 is arranged at the middle front side end of the bevel tongue poking piece 18, and when the transmission piece 17 is used, the bevel tongue poking piece 18 is pushed to move through the pushing convex point 171, so that the use is convenient.

The front end of the inclined tongue poking piece 18 is provided with an inclined tongue component 19, the rear side end of the inclined tongue component 19 is provided with a pushing groove 191, the front end of the inclined tongue poking piece 18 is arranged in the pushing groove 191, and when the lock case is used, the inclined tongue component 19 is pushed through the front end of the inclined tongue poking piece 18, so that the inclined tongue component 19 is retracted into the lock case component 10, and the lock case is convenient to use.

When the lock is in use, when the lock is unlocked, signals are transmitted to the motor assembly 11 through the external circuit board to reversely rotate, the motor assembly 11 drives the rack 12 through the transmission gear 112, the rack 12 drives the linkage piece 13, the linkage piece 13 drives the main tongue assembly 14 to retract, meanwhile, the rack 12 drives the transmission piece 17 through the pushing strip 124, the transmission piece 17 drives the inclined tongue shifting piece 18 to move through the pushing convex point 171, the front end of the inclined tongue shifting piece 18 drives the inclined tongue assembly 19 to retract, when the rack 12 reaches a specified position, the sensing magnet 123 on the rack 12 senses that the lock is in place on the Hall circuit board 15 to stop rotating the motor assembly 11, and therefore the automatic unlocking effect is achieved, and the lock is simple and convenient to use.

In summary, the motor assembly 11 is fixedly installed on the inner side of the lock shell assembly 10, a transmission part 111 is arranged on one side of the motor assembly 11, a rack 12 is arranged on the transmission part 111, a linkage piece 13 is arranged on the rack 12, and a main tongue assembly 14 is arranged on the linkage piece 13.

Claims (8)

1. A full-automatic lock body comprises a lock shell component (10) and a buckle plate (20), wherein the lock shell component (10) is arranged on a door body, the buckle plate (20) is arranged on a door frame, and the full-automatic lock body is characterized in that,

the door magnet (16) is arranged on the surface of the lock shell assembly (10), the locking magnet (21) is arranged on the surface of the buckle plate (20), the motor assembly (11) and the Hall circuit board (15) are arranged on the inner side of the lock shell assembly (10), the Hall circuit board (15) is electrically connected with the motor assembly (11), a rack (12) is connected to one side of the motor assembly (11) in a transmission manner, a linkage piece (13) is connected to the rack (12) in a transmission manner, and a main tongue assembly (14) is connected to the linkage piece (13) in a transmission manner.

2. The full-automatic lock body according to claim 1, wherein a transmission part (111) is arranged on one side of the motor assembly (11), the rack (12) is arranged on the transmission part (111), a transmission gear (112) is arranged in the transmission part (111), a transmission tooth slot (121) is arranged on the surface of the rack (12), and the transmission gear (112) is in meshed connection with the transmission tooth slot (121).

3. The full-automatic lock body according to claim 1, wherein a first driving pin (122) is provided on the surface of the rack (12), a first driving groove (131) is provided on the surface of the linkage piece (13), and the first driving pin (122) is provided in the first driving groove (131).

4. The full-automatic lock body according to claim 1, wherein a second driving pin (132) is provided on the surface of the linkage piece (13), a second driving groove (141) is provided on the surface of the main tongue component (14), and the second driving pin (132) is disposed in the second driving groove (141).

5. The full-automatic lock body according to claim 1, wherein the rack (12) is provided with an induction magnet (123) on its surface.

6. The full-automatic lock body according to claim 1, wherein a transmission plate (17) is arranged on one side of the rack (12), a pushing bar (124) is arranged on one side of the rack (12), and the pushing bar (124) is arranged at the lower side end of the transmission plate (17).

7. The full-automatic lock body according to claim 6, wherein the top of the transmission piece (17) is provided with a bevel tongue poking piece (18), the top of the transmission piece (17) is convexly provided with a pushing convex point (171), and the pushing convex point (171) is arranged at the middle front side end of the bevel tongue poking piece (18).

8. The full-automatic lock according to claim 7, wherein the front end of the latch pulling piece (18) is provided with a latch assembly (19), the rear side end of the latch assembly (19) is provided with a pushing groove (191), and the front end of the latch pulling piece (18) is arranged in the pushing groove (191).

Images