CN215761027U - Battery case detachable construction of intelligence electronic lock - Google Patents

Abstract

The utility model discloses a battery box detachable structure of an intelligent electronic lock, which comprises a lock body and a battery box used for supplying power to the lock body, wherein the bottom of the lock body is provided with a clamping groove, and the top of the battery box is provided with a lug which is clamped in the clamping groove when the lock body is in a locking state and can be detached from the clamping groove when the lock body is in an unlocking state. Through the mode, the detachable structure of the battery box of the intelligent electronic lock disclosed by the utility model has the advantages that a legal user can replace a new battery box before the battery fails, the cruising ability of the intelligent electronic lock is ensured, the service life of the intelligent electronic lock is long, the use cost is low, meanwhile, the battery box cannot be detached by an illegal user, the safety is high, and the user experience is greatly improved.

Description

Battery case detachable construction of intelligence electronic lock

Technical Field

The utility model relates to the technical field of intelligent locks, in particular to a detachable structure of a battery box of an intelligent electronic lock.

Background

Along with the development of science and technology, intelligent electronic lock is used in people's life gradually, and intelligent electronic lock is different from traditional mechanical lock, the more intelligent tool to lock in user identification, security, managerial aspect.

At present, many intelligent electronic locks on the market have built-in batteries, and the accessible battery supplies power for the internal device of intelligent electronic lock, however, the battery of the intelligent electronic lock on the market all is fixed to be set up inside the lock, and unable dismantlement also can't be changed, and when the battery became invalid, a lot of intelligent electronic locks also along with scrapping together, can lead to the life-span of intelligent electronic lock short like this, and duration is limited, and use cost is high, greatly reduced user's experience.

Disclosure of Invention

The utility model mainly solves the technical problem of providing a detachable structure of a battery box of an intelligent electronic lock, which can replace the battery box as required to ensure the cruising ability of the intelligent electronic lock, so that the intelligent electronic lock has long service life and low use cost, and the user experience is greatly improved.

In order to solve the technical problems, the utility model adopts a technical scheme that: the utility model provides a battery case detachable construction of intelligence electronic lock, includes the lock body and is used for doing the battery case of lock body power supply, its characterized in that, the bottom of lock body is equipped with the draw-in groove, the top of battery case is provided with works as the card is put when the lock body is in the shutting state in the draw-in groove and works as the lock body can follow when being in the state of unblanking the lug that gets off is dismantled in the draw-in groove.

Furthermore, a first accommodating groove communicated with the clamping groove is formed in the side wall of the lock body along a first direction, a battery screw which is clamped in the first accommodating groove when the lock body is in a locking state and can be detached from the first accommodating groove when the lock body is in an unlocking state is arranged in the first accommodating groove, a first through hole is formed in the projection, and the battery screw penetrates through the first through hole when the battery screw is clamped in the first accommodating groove.

Furthermore, the battery screw is in threaded connection with the first accommodating groove, and a clamping opening is formed in one end of the battery screw.

Furthermore, a sealing screw clamped in the first accommodating groove is further arranged on the side wall of the lock body, wherein the sum of the lengths of the battery screw and the sealing screw is smaller than the length of the first accommodating groove.

Furthermore, a second receiving groove communicated with the first receiving groove is formed in the top of the lock body along a second direction, a lock beam is arranged in the second receiving groove, one end of the lock beam is clamped in the first receiving groove when the lock body is in a locking state, and the other end of the lock beam is not clamped in the first receiving groove when the lock body is in an unlocking state, wherein the first direction is perpendicular to the second direction.

Furthermore, a clamping portion is arranged at one end, close to the first accommodating groove, of the second accommodating groove, a penetrating hole is formed in the clamping portion, the first accommodating groove is communicated with the second accommodating groove, a lock beam tail block accommodated in the penetrating hole is arranged at one end of the lock beam, the lock beam tail block is clamped in the first accommodating groove when the lock body is in a locking state, and the lock beam tail block is not clamped in the first accommodating groove when the lock body is in an unlocking state.

Furthermore, the first receiving groove includes a first receiving hole for receiving the battery screw and a second receiving hole for receiving the sealing screw, wherein the through hole is disposed between the first receiving hole and the second receiving hole.

Further, the battery screw is in threaded connection with the first accommodating hole, and the sealing screw is in threaded connection with the second accommodating hole.

The utility model has the beneficial effects that: different from the situation of the prior art, the battery box detachable structure of the intelligent electronic lock disclosed by the utility model comprises a lock body and a battery box for supplying power to the lock body, wherein the bottom of the lock body is provided with a clamping groove, and the top of the battery box is provided with a lug which is clamped in the clamping groove when the lock body is in a locking state and can be detached from the clamping groove when the lock body is in an unlocking state. Through the mode, the detachable structure of the battery box of the intelligent electronic lock disclosed by the utility model enables a legal user to replace a new battery box before the battery fails so as to ensure the cruising ability of the intelligent electronic lock, and enables the intelligent electronic lock to have long service life and low use cost, meanwhile, an illegal user cannot detach the battery box, the safety is high, and the user experience is greatly improved.

Drawings

FIG. 1 is a schematic view of a separated three-dimensional structure of an intelligent electronic lock according to the present invention;

FIG. 2 is a sectional view of the intelligent electronic lock in FIG. 1 in a locked state;

FIG. 3 is a sectional view of the intelligent electronic lock in FIG. 1 in an unlocked state;

FIG. 4 is a schematic diagram of a first partial structure of the smart electronic lock of FIG. 2;

fig. 5 is a second partial structural schematic diagram of the intelligent electronic lock in fig. 2.

Detailed Description

The utility model discloses an intelligent electronic lock, which comprises a battery box detachable structure, as shown in figures 1-5, wherein the battery box detachable structure comprises a lock body 10 and a battery box 11 for supplying power to the lock body 10.

Preferably, the battery compartment 11 is detachably connected to the lock body 10.

In this embodiment, the bottom of the lock body 10 is provided with a slot 101, wherein the top of the battery box 11 is provided with a protrusion 111 which is clamped in the slot 101 when the lock body 10 is in the locked state and can be detached from the slot 101 when the lock body 10 is in the unlocked state.

That is to say, when the lock body 10 is in the locking state, the battery box 11 can not be detached, and only when the lock body 10 is in the unlocking state, the battery box 11 can be detached and replaced, in other words, a legal user (i.e. can normally unlock) can replace the new battery box 11 before the battery fails, and an illegal user (i.e. cannot normally unlock, such as without a password or a key) can not detach the battery box 11, so that the safety is high. It should be understood that the top end of the battery box 11 is provided with a conductive head 112, and when the protrusion 111 of the battery box 11 is clamped in the clamping slot 101 of the lock body 10, the conductive head 112 of the battery box 11 is electrically connected with the interface end of the lock body 10.

In the present embodiment, a first receiving groove 102 communicating with the locking groove 101 is formed in a side wall of the lock body 10 along the first direction a, wherein a battery screw 103 is disposed in the first receiving groove 102, and is locked in the first receiving groove 102 when the lock body 10 is in the locked state, and is detachable from the first receiving groove 102 when the lock body 10 is in the unlocked state.

Preferably, the protrusion 111 is provided with a first through hole, and the battery screw 103 is inserted into the first through hole when the battery screw 103 is clamped in the first receiving groove 102. That is, when the lock body 10 is in the locked state, the battery screw 103 is received in the first receiving groove 102, and the battery screw 103 is further inserted into the first through hole of the protrusion 111, so that the protrusion 111 is engaged by the battery screw 103, and the protrusion 111 is received in the engaging groove 101 of the lock body 10.

It is noted that the length of the battery screw 103 is greater than the length of the slot 101 (i.e., the length along the first direction a) of the lock body 10.

Preferably, the battery screw 103 is screwed with the first receiving groove 102, so that the position of the battery screw 103 in the first receiving groove 102 can be adjusted by rotation.

Furthermore, one end of the battery screw 103 is provided with a clamping opening, so that the adjusting rod can be clamped in the clamping opening to drive the battery screw 103 to rotate. It should be understood that the length of the battery screw 103 is smaller than the length of the first receiving groove 102, and therefore the battery screw 103 is entirely received in the first receiving groove 102.

In the present embodiment, the sidewall of the lock body 10 is further provided with a sealing screw 104 that is clamped in the first receiving groove 102, and it should be understood that the sealing screw 104 is used for sealing the first receiving groove 102.

Preferably, the closing screw 104 is threadedly coupled with the first receiving groove 102. It should be understood that the length of the sealing screw 104 is less than the length of the first receiving slot 102, the body of the sealing screw 104 is screwed into the first receiving slot 102, and the nut of the sealing screw 104 is clamped outside the first receiving slot 102.

Preferably, the sum of the lengths of the battery screw 103 and the sealing screw 104 is smaller than the length of the first receiving groove 102.

It is noted that the sealing screw 104 is disposed at one end of the first receiving groove 102, and the battery screw 103 is disposed at the other end of the first receiving groove 102, such that the middle of the first receiving groove 102 is hollow.

In the present embodiment, the top of the lock body 10 is provided with a second receiving groove 105 along a second direction B, the second receiving groove 105 is provided with a lock beam 12, one end of the lock beam is clamped in the first receiving groove 102 when the lock body 10 is in the locked state, and the other end of the lock beam is not clamped in the first receiving groove 102 when the lock body 10 is in the unlocked state, wherein the first direction a is perpendicular to the second direction B.

That is, when the lock body 10 is in the locked state, one end of the lock beam 12 is clamped in the first receiving groove 102, and at this time, one end of the lock beam 12 blocks the battery screw 103, so that the battery screw 103 cannot be removed from the first receiving groove 102, and at this time, the battery box 11 cannot be removed, when the lock body 10 is in the unlocked state, one end of the lock beam 12 is not clamped in the first receiving groove 102, at this time, one end of the lock beam 12 is far away from the first receiving groove 102, and one end of the lock beam 12 does not block the battery screw 103, and the adjusting rod can be inserted to drive the battery screw 103 to rotate, so as to remove the battery screw 103 from the first receiving groove 102, and remove the battery screw 103 from the first through hole of the protrusion 111, and thus the battery box 11 can be removed.

It should be understood that when the lock body 10 is in the locked state, one end of the lock beam 12 is lowered and is clamped in the first receiving slot 102, and when the lock body 10 is in the unlocked state, one end of the lock beam 12 is raised and is away from the first receiving slot 102, and the connection structure between the lock beam 12 and the lock body 10 can be implemented by using the products in the prior art, which is not repeated herein, that is, as long as the conditions that one end of the lock beam 12 is lowered when the lock body 10 is in the locked state and one end of the lock beam 12 is raised when the lock body 10 is in the unlocked state are met.

Further, a clamping portion is disposed at an end of the second receiving slot 105 close to the first receiving slot 102, wherein the clamping portion is disposed with a through hole 1051 for communicating the first receiving slot 102 and the second receiving slot 105, and an end of the lock beam 12 is disposed with a lock beam end stop 121 received in the through hole 1051, the lock beam end stop 121 is clamped in the first receiving slot 102 when the lock body 10 is in the locked state, and the lock beam end stop 121 is not clamped in the first receiving slot 102 when the lock body 10 is in the unlocked state. That is, when the lock body 10 is in the locked state, the strike 121 passes through the through hole 1051 and blocks the battery screw 103, so that the battery screw 103 cannot be removed from the first receiving groove 102, and when the lock body 10 is in the unlocked state, the strike 121 is lifted and separated from the first receiving groove 102, so that the battery screw 103 is not blocked, so that the battery screw 103 can be removed from the first receiving groove 102.

Preferably, the first receiving groove 102 includes a first receiving hole for receiving the battery screw 103 and a second receiving hole for receiving the sealing screw 104, wherein the through hole 1051 is disposed between the first receiving hole and the second receiving hole, so that the beam end stop 121 descends to block the battery screw 103 in the first receiving hole when the lock body 10 is in the unlocked state.

Preferably, the battery screw 103 is screwed into the first receiving hole, and the sealing screw 104 is screwed into the second receiving hole.

The specific principle is as follows:

when the battery box 11 needs to be detached, a legal user enables the lock body 10 to be in an unlocking state through a key or a password, at this time, the lock beam tail stop 121 rises and leaves the first accommodating groove 102, the lock beam tail stop 121 does not stop the battery screw 103, the sealing screw 104 can be detached from the first accommodating groove 102 in a rotating mode, then the adjusting rod is inserted into the first accommodating groove 102 and clamped in a clamping opening of the battery screw 103, the adjusting rod is rotated to drive the battery screw 103 to rotate, so that the battery screw 103 moves in the first accommodating groove 102 until the battery screw 103 leaves from the first through hole of the bump 111, the bump 111 is no longer clamped in the clamping groove 101 by the battery screw 103, and at this time, the battery box 11 can be detached to replace the other one; in addition, when the battery box 11 needs to be installed, the protrusion 111 of the battery box 11 is inserted into the slot 101 of the lock body 10, at this time, the battery screw 103 can be rotated so that the battery screw 103 penetrates through the first through hole of the protrusion 111, and then the sealing screw 104 is installed, so that the installation of the battery box 11 is realized.

In conclusion, the detachable structure of the battery box of the intelligent electronic lock disclosed by the utility model enables a legal user to replace a new battery box before the battery fails, so that the cruising ability of the intelligent electronic lock is ensured, the service life of the intelligent electronic lock is long, the use cost is low, meanwhile, an illegal user cannot detach the battery box, the safety is high, and the user experience is greatly improved.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. The utility model provides a battery case detachable construction of intelligence electronic lock, includes the lock body and is used for doing the battery case of lock body power supply, its characterized in that, the bottom of lock body is equipped with the draw-in groove, the top of battery case is provided with works as the card is put when the lock body is in the shutting state in the draw-in groove and works as the lock body can follow when being in the state of unblanking the lug that gets off is dismantled in the draw-in groove.

2. The battery box detachable structure of an intelligent electronic lock according to claim 1, wherein a first receiving groove is formed in a side wall of the lock body along a first direction, the first receiving groove is communicated with the locking groove, a battery screw is disposed in the first receiving groove and is clamped in the first receiving groove when the lock body is in a locked state, and the battery screw is detachable from the first receiving groove when the lock body is in an unlocked state, wherein the protrusion has a first through hole, and the battery screw is inserted into the first through hole when the battery screw is clamped in the first receiving groove.

3. The battery box detachable structure of an intelligent electronic lock according to claim 2, wherein the battery screw is in threaded connection with the first receiving groove, and a clamping opening is formed at one end of the battery screw.

4. The battery box detachable structure of an intelligent electronic lock according to claim 2, wherein a sealing screw is further disposed on a side wall of the lock body and is engaged with the first receiving groove, and a sum of lengths of the battery screw and the sealing screw is smaller than a length of the first receiving groove.

5. The battery box detachable structure of an intelligent electronic lock according to claim 4, wherein a second receiving groove is formed at a top of the lock body along a second direction, the second receiving groove is communicated with the first receiving groove, a lock beam is formed in the second receiving groove, one end of the lock beam is clamped in the first receiving groove when the lock body is in a locked state, and the other end of the lock beam is not clamped in the first receiving groove when the lock body is in an unlocked state, wherein the first direction and the second direction are perpendicular.

6. The battery box detachable structure of an intelligent electronic lock according to claim 5, wherein the second receiving groove has a locking portion at an end thereof near the first receiving groove, the locking portion has a through hole for communicating the first receiving groove with the second receiving groove, and the lock beam has a lock beam tail stopper at an end thereof received in the through hole, wherein the lock beam tail stopper is locked in the first receiving groove when the lock body is in the locked state, and the lock beam tail stopper is not locked in the first receiving groove when the lock body is in the unlocked state.

7. The battery box detachable structure of the intelligent electronic lock as claimed in claim 6, wherein the first receiving slot comprises a first receiving hole for receiving the battery screw and a second receiving hole for receiving the sealing screw, and the through hole is disposed between the first receiving hole and the second receiving hole.

8. The battery box detachable structure of an intelligent electronic lock, according to claim 7, wherein the battery screw is screwed into the first receiving hole, and the sealing screw is screwed into the second receiving hole.

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