CN109538019B - Motor type automatic blade lock - Google Patents

Abstract

The application discloses a motor type automatic blade lock, and relates to the technical field of automatic locks. The motor type automatic blade lock comprises a lock cylinder and a motor, wherein the lock cylinder is arranged on the motor and comprises a lock cylinder core, a first lock cylinder sleeve and a second lock cylinder sleeve, the lock cylinder core penetrates through the first lock cylinder sleeve and the second lock cylinder sleeve, the lock cylinder core is in locking connection with the first lock cylinder sleeve through a blade, and the first lock cylinder sleeve is connected with the motor. Through being provided with second lock core sleeve for the axiality of motor and second lock core sleeve is guaranteed, and the axiality of first lock core sleeve and second lock core sleeve is guaranteed through the lock core that runs through first lock core sleeve and second lock core sleeve, has consequently guaranteed the axiality of blade lock and motor, has consequently avoided taking place the condition that the relative displacement destroyed axiality between motor and the blade lock, has guaranteed the unlocking stability of motor type automatic blade lock.

Description

Motor type automatic blade lock

Technical Field

The application relates to the technical field of automatic locks, in particular to a motor type automatic blade lock.

Background

At present, the existing home decoration motor type blade lock is characterized in that a motor is additionally arranged on an indoor cover plate, the blade lock is connected with the motor through a connecting inserting piece, and the coaxiality of a hole on the blade lock and two holes of a rotating hole of the motor cannot be ensured due to the deviation of the installation angle and the position of the blade lock in a general structure.

In addition, in the use, the opening and closing of the gate can not be vibrated, and the long-time vibration can also enable the blade lock assembled at first to be loosened, so that the coaxiality of the motor and two holes of the blade lock is damaged.

When the two holes do not have higher coaxiality, the motor can hardly drive the lock core of the original blade lock to rotate or even cannot rotate, so that the door is difficult to unlock through the motor or even cannot unlock through the motor, and the daily life of a user is influenced.

The full-automatic lock at the present stage can only be installed in a room, under the condition that the motor cannot work, the lock core can be separated from the motor only by pressing the push knob, then the lock is unlocked or locked by rotating the knob, the lock is unlocked and then the knob is rotated to exit the unlocking position, otherwise, hidden danger that the outdoor motor cannot unlock exists, and the daily life of a user is further influenced.

Disclosure of Invention

The technical scheme of the application provides a motor type automatic blade lock. The coaxiality of the motor and the blade lock can be ensured, and the setting of unlocking the indoor knob is canceled on the premise of unlocking by the key, and the technical scheme is as follows:

in a first aspect, the application provides a motor-type automatic vane lock, comprising a lock cylinder and a motor, wherein the motor is arranged on the lock cylinder, the lock cylinder comprises a lock cylinder core, a first lock cylinder sleeve, a lock tongue and a second lock cylinder sleeve, the lock cylinder core penetrates through the first lock cylinder sleeve and the second lock cylinder sleeve, the lock cylinder core is in locking connection with the first lock cylinder sleeve through a vane, the lock cylinder core is in rotatable connection with the second lock cylinder sleeve, the first lock cylinder sleeve is rotatable relative to the second lock cylinder sleeve, the first lock cylinder sleeve is connected with the motor, and the lock tongue is fixedly sleeved on the lock cylinder core.

Through being provided with first lock core sleeve to the setting of first lock core sleeve and second lock core sleeve separation, after first lock core sleeve is connected with the motor, make the axiality of motor and first lock core sleeve obtain guaranteeing, and the axiality of first lock core sleeve and second lock core sleeve guarantees through the lock core that runs through first lock core sleeve and second lock core sleeve, consequently guaranteed the axiality of blade lock and motor, consequently avoided taking place not hard up or the condition that the angle deviation destroyed the axiality between motor and the blade lock, consequently guaranteed the blade lock that takes place the motor just guaranteed the axiality before installing into the gate, avoided taking place the condition of angle and position deviation between motor and the blade lock that the installation produced simultaneously, and then avoided the motor to be difficult to or can't drive the condition that the blade lock unblanked, guaranteed the unlocking stability of motor type automatic blade lock.

Meanwhile, through the locking connection of the lock core and the first lock core sleeve, the traditional locking connection of the lock core and the second lock core sleeve is abandoned, when the first lock core sleeve and the lock core are locked, a user can only drive the first lock core sleeve to rotate through a motor, and because the first lock core sleeve and the lock core sleeve are in a locking state, the first lock core sleeve directly drives the lock core to rotate, and the lock core rotates to drive the lock tongue to rotate, so that unlocking action is realized; when a user breaks the locking state of the first lock cylinder sleeve and the lock cylinder core through the key, the motor fixes the first lock cylinder sleeve and cannot rotate, but because of the breaking of the locking state, the user can directly drive the lock cylinder core to rotate through the key, and the lock cylinder core rotates to drive the lock tongue to rotate, so that unlocking action is realized.

Therefore, the user can choose to unlock by using the motor or the key, and when the motor cannot work, the user can unlock by using the key, so that an additional unlocking mode is provided for the user, and the daily unlocking stability of the user is ensured.

In a first possible implementation manner of the first aspect, a gear is provided on an outer cylindrical surface of the first lock cylinder sleeve, and the gear is meshed with inner teeth of the motor.

Through the setting of gear, the condition that takes place to skid when having avoided the motor to drive first lock core sleeve has further improved the unlocking stability of motor type automatic vane lock.

With reference to the first aspect to the first possible implementation manner of the first aspect, in a second possible implementation manner of the first aspect, a side, close to the lock core, of the motor is provided with a groove matched with the shape of the lock core.

With reference to the first aspect and the second possible implementation manner of the first aspect, in a third possible implementation manner of the first aspect, the motor is fixed to the lock cylinder by a screw.

Through be provided with on the motor with lock core appearance assorted recess set up for the motor can be through the screw fixation on the lock core, make lock core and motor become an organic wholely, avoided the lock core to take place the rotation deviation for the motor, guaranteed the axiality of blade lock and motor, increased the stability of motor type automatic blade lock.

Compared with the prior art, the application has the following beneficial effects: through being provided with first lock core sleeve to the setting of first lock core sleeve and second lock core sleeve separation, after first lock core sleeve is connected with the motor, make the axiality of motor and first lock core sleeve obtain guaranteeing, and the axiality of first lock core sleeve and second lock core sleeve guarantees through the lock core that runs through first lock core sleeve and second lock core sleeve, consequently guaranteed the axiality of blade lock and motor, consequently avoided taking place not hard up or the condition that the angle deviation destroyed the axiality between motor and the blade lock, consequently guaranteed the blade lock that takes place the motor just guaranteed the axiality before installing into the gate, avoided taking place the condition of angle and position deviation between motor and the blade lock that the installation produced simultaneously, and then avoided the motor to be difficult to or can't drive the condition that the blade lock unblanked, guaranteed the unlocking stability of motor type automatic blade lock.

Meanwhile, through the locking connection of the lock core and the first lock core sleeve, the traditional locking connection of the lock core and the second lock core sleeve is abandoned, when the first lock core sleeve and the lock core are locked, a user can only drive the first lock core sleeve to rotate through a motor, and because the first lock core sleeve and the lock core sleeve are in a locking state, the first lock core sleeve directly drives the lock core to rotate, and the lock core rotates to drive the lock tongue to rotate, so that unlocking action is realized; when a user breaks the locking state of the first lock cylinder sleeve and the lock cylinder core through the key, the motor fixes the first lock cylinder sleeve and cannot rotate, but because of the breaking of the locking state, the user can directly drive the lock cylinder core to rotate through the key, and the lock cylinder core rotates to drive the lock tongue to rotate, so that unlocking action is realized.

Therefore, the user can choose to unlock by using the motor or the key, and when the motor cannot be powered or the motor cannot rotate, the user can unlock by using the key, so that an additional unlocking mode is provided for the user, and the daily unlocking stability of the user is ensured.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application, wherein:

FIG. 1 is a front view of a motorized automatic blade lock;

FIG. 2 is a schematic perspective view of the motor of FIG. 1 with the motor removed;

FIG. 3 is a schematic perspective view of the motor and first cylinder jacket removed from FIG. 1;

fig. 4 is a schematic perspective view of a second lock cylinder sleeve;

fig. 5 is a schematic perspective view of a first lock cylinder sleeve

Fig. 6 is a schematic perspective view of a cylinder core.

Reference numerals: 1 lock core, 2 first lock core sleeves, 3 second lock core sleeves, 4 motors, 5 lock bolts, 6 gears, 7 lock cores and 8 internal teeth

Detailed Description

The following disclosure provides many different embodiments, or examples, for implementing different features of the application. In order to simplify the present disclosure, components and arrangements of specific examples are described below. They are, of course, merely examples and are not intended to limit the application. Furthermore, the present application may repeat reference numerals and/or letters in the various examples, which are for the purpose of brevity and clarity, and which do not themselves indicate the relationship between the various embodiments and/or arrangements discussed. In addition, the present application provides examples of various specific processes and materials, but one of ordinary skill in the art will recognize the application of other processes and/or the use of other materials.

At present, the existing home decoration motor type blade lock is characterized in that a motor is additionally arranged on an indoor cover plate, the blade lock is connected with the motor through a connecting inserting piece, and the coaxiality of a hole on the blade lock and two holes of a rotating hole of the motor cannot be ensured due to the deviation of the installation angle and the position of the blade lock in a general structure.

In addition, in the use, the opening and closing of the gate can not be vibrated, and the long-time vibration can also enable the blade lock assembled at first to be loosened, so that the coaxiality of the motor and two holes of the blade lock is damaged.

When the two holes do not have higher coaxiality, the motor can hardly drive the lock core of the original blade lock to rotate or even cannot rotate, so that the door is difficult to unlock through the motor or even cannot unlock through the motor, and the daily life of a user is influenced.

The full-automatic lock at the present stage can only be installed in a room, under the condition that the motor cannot work, the lock core can be separated from the motor only by pressing the push knob, then the lock is unlocked or locked by rotating the knob, the lock is unlocked and then the knob is rotated to exit the unlocking position, otherwise, hidden danger that the outdoor motor cannot unlock exists, and the daily life of a user is further influenced.

In order to ensure the coaxiality of the motor and the blade lock, and cancel the setting of unlocking the indoor knob on the premise of keeping unlocking of the key, the technical scheme of the application provides the motor type automatic blade lock. The technical proposal is as follows:

the application is described in further detail below with reference to fig. 1 to 6.

As shown in fig. 1-6, the application provides a motor type automatic blade lock, which comprises a lock cylinder 7 and a motor 4, wherein the motor 4 is arranged on the lock cylinder 7, the lock cylinder 7 comprises a lock cylinder core 1, a first lock cylinder sleeve 2, a lock tongue 5 and a second lock cylinder sleeve 3, the lock cylinder core 1 penetrates through the first lock cylinder sleeve 2 and the second lock cylinder sleeve 3, the lock cylinder core 1 is in locking connection with the first lock cylinder sleeve 2 through blades, the lock cylinder core 1 is in rotatable connection with the second lock cylinder sleeve 3, the first lock cylinder sleeve 2 is rotatable relative to the second lock cylinder sleeve 3, the first lock cylinder sleeve 2 is connected with the motor 4, and the lock tongue 5 is fixedly sleeved on the lock cylinder core 1.

Through being provided with first lock core sleeve 2 to the setting of first lock core sleeve 2 and the separation of second lock core sleeve 3, after first lock core sleeve 2 is connected with motor 4, make the axiality of motor 4 and first lock core sleeve 2 obtain guaranteeing, and the axiality of first lock core sleeve 2 and second lock core sleeve 3 is guaranteed through the lock core 1 that runs through first lock core sleeve 2 and second lock core sleeve 3, consequently guaranteed the axiality of blade lock and motor 4, avoided taking place not hard up or the condition that the angle deviation destroyed axiality between motor 4 and the blade lock, consequently guaranteed the blade lock that takes place motor 4 just guaranteed the axiality before installing into the gate, avoided taking place the condition of angle and position deviation between motor 4 and the blade lock that the installation produced simultaneously, and then avoided motor 4 to be difficult to or unable to drive the condition that the blade lock unblanked, guaranteed the unblanked stability of motor type automatic blade lock.

Meanwhile, through the locking connection of the lock core 1 and the first lock core sleeve 2, the traditional locking connection of the lock core 1 and the second lock core sleeve 3 is abandoned, when the first lock core sleeve 2 and the lock core 1 are locked, a user can only drive the first lock core sleeve 2 to rotate through the motor 4, and because the first lock core sleeve 2 and the lock core 1 are in a locking state, the first lock core sleeve 2 directly drives the lock core 1 to rotate, and the lock core 1 rotates to drive the lock tongue 5 to rotate, so that unlocking action is realized; when the user breaks the locking state of the first lock cylinder sleeve 2 and the lock cylinder core 1 through the key, the motor 4 fixes the first lock cylinder sleeve 2 and cannot rotate, but because of the breaking of the locking state, the user can directly drive the lock cylinder core 1 to rotate through the key, and the lock cylinder core 1 rotates to drive the lock tongue 5 to rotate, so that unlocking action is realized.

Therefore, the user can choose to unlock by using the motor 4 or by using the key, and when the motor 4 cannot work, the user can unlock by using the key, so that an additional unlocking mode is provided for the user, and the daily unlocking stability of the user is ensured.

In particular, the outer cylindrical surface of the first cylinder sleeve 2 is provided with a gear 6, and the gear 6 is meshed with the inner teeth 8 of the motor 4.

Through the setting of gear 6, the condition that takes place to skid when having avoided motor 4 to drive first lock core sleeve 2 has further improved the unlocking stability of motor type automatic blade lock.

Of course, the connection between the motor 4 and the first lock core sleeve 2 may be other connection modes such as friction plates with a large friction coefficient, and the scheme of the motor 4 for driving the first lock core sleeve 2 to rotate should be within the protection scope of the present application.

In particular, a groove matched with the shape of the lock cylinder 7 is formed on one side of the motor 4 close to the lock cylinder 7.

At the same time, the motor 4 is fixed with the lock cylinder 7 by screws.

Through be provided with on motor 4 with lock core 7 appearance assorted recess set up for motor 4 can be through the screw fixation on lock core 7, make lock core 7 and motor 4 become an organic wholely, avoided lock core 7 to take place the rotation deviation for motor 4, guaranteed the axiality of blade lock and motor 4, increased the stability of motor type automatic blade lock.

Other embodiments of the application will be apparent to those skilled in the art from consideration of the specification and practice of the application disclosed herein. This application is intended to cover any variations, uses, or adaptations of the application following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the application pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the application being indicated by the following claims.

It is to be understood that the application is not limited to the precise arrangements and instrumentalities shown in the drawings, which have been described above, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (3)

1. The motor type automatic blade lock is characterized by comprising a lock core (7) and a motor (4), wherein the motor (4) is installed on the lock core (7), the lock core (7) comprises a lock core (1), a first lock core sleeve (2), a lock tongue (5) and a second lock core sleeve (3), the lock core (1) penetrates through the first lock core sleeve (2) and the second lock core sleeve (3), the lock core (1) is in locking connection with the first lock core sleeve (2) through a blade, the lock core (1) is in rotatable connection with the second lock core sleeve (3), the first lock core sleeve (2) is rotatable relative to the second lock core sleeve (3), the first lock core sleeve (2) is connected with the motor (4), and the lock tongue (5) is fixedly sleeved on the lock core (1).

A gear (6) is arranged on the outer cylindrical surface of the first lock cylinder sleeve (3), and the gear (6) is meshed with the inner teeth (8) of the motor (4);

when the key is used for driving the lock core (1) to rotate, the locking state of the first lock core sleeve (2) and the lock core (1) is released, and the lock core (1) rotates to drive the lock tongue (5) to rotate.

2. The motor-type automatic blade lock according to claim 1, characterized in that a groove matching the shape of the lock cylinder (7) is formed on one side of the motor (4) close to the lock cylinder (7).

3. A motor-driven automatic blade lock according to claim 2, characterized in that the lock cylinder (7) is fixed to the motor (4) by means of screws.