CN221096117U - Embedded intelligent lock control panel fixed shell assembly and control panel thereof - Google Patents

Abstract

The utility model discloses an embedded intelligent lock control panel fixed shell assembly and a control panel thereof, comprising a front shell, wherein the outer peripheral edge of the front end of the front shell is outwards extended with a first clamping part which is limited outside an embedded body; the front end of the front shell is also provided with a first screen groove, and the rear end of the front shell is provided with a first circuit board groove for accommodating a circuit board; the front end of the rear shell is provided with a second screen groove, and the rear end of the rear shell is provided with a second circuit board groove for accommodating a circuit board; the power supply installation shell, the peripheral edge of the front end of the power supply installation shell extends outwards to form a second clamping part which is limited outside the embedded body; the front end of the power supply installation shell is also provided with a battery slot, and the rear end of the power supply installation shell is provided with a third circuit board slot; the front end of the power supply installation shell is in sliding clamping connection with the rear shell. The utility model has flexible installation position and strong anti-theft performance, can be embedded in any position of the embedded body, even in a large handle on the door, has attractive overall appearance, and is particularly convenient for charging and replacing the battery.

Description

Embedded intelligent lock control panel fixed shell assembly and control panel thereof

Technical Field

The utility model relates to the technical field of intelligent door locks, in particular to an embedded intelligent lock control panel fixing shell assembly for a full-automatic intelligent door lock and a control panel thereof.

Background

The lock body used in the existing lock generally has two driving modes, namely motor driving and mechanical driving. The lock body driven by the motor is provided with a data line, a driving motor is arranged in the lock body, and the opening and the closing are controlled by receiving signals at the other end of the data line. Locks with this drive are known as smart locks. The mechanical driving is used for driving the lock body to open and close by rotating the key or the handle. The intelligent locks are classified into semi-automatic intelligent locks and full-automatic intelligent locks. Semi-automatic intelligent locks are generally provided with transverse handles, and are called as semi-automatic because the identification and unlocking are two processes, and after the user passes through the identification, the user needs to manually press the handles to unlock and need to lift the handles to lock when closing the door. The different experiences brought to the user by the full-automatic intelligent lock are: when the door is opened, after the identity is identified, the main lock tongue of the door lock automatically retracts, and the door can be opened by pushing and pulling; when the door is closed, the main lock tongue automatically stretches out and locks, so that the door can be closed, and the door can be closed without manual locking.

The existing full-automatic intelligent door lock comprises a control panel for verifying the identity of a user besides a lock body, and the installation position is determined according to the position of the lock body. The control panel is generally composed of a front panel part and a rear panel part, wherein the two panels are respectively attached to the front part and the rear part of the door, and are physically fixedly connected through a connecting piece in the door. Touch screens are arranged on the outer sides of the two panels, and a circuit board and a power module are arranged inside the touch screens. The front panel is electrically connected with the rear panel and the lock body respectively. The control panel has a certain thickness, and when attached to the front door and the rear door, the control panel is protruded out of the door panel, so that the safety is poor, the control panel is easy to be violently untwisted, and the overall size is overlarge, so that the ornamental effect is poor; second, the power supply of the smart lock is generally placed in two ways, one is disposed in a portion of the door panel other than the control panel, such as the side of the door body that is opposite to the hinge or lock body. This kind of setting mode, when changing or charging the power, generally need dismantle the screw and just can change, the convenience drops greatly, and if meet the door by the mistake when touching and closing, people or thing all have the risk of being pressed from both sides moreover. The other is arranged in the control panel, and the mounting shell of the control panel is generally divided into two parts of plug-in type clamping connection. When charging, the shell far away from one side of the door needs to be pulled or pried out, so that the shell is easy to damage and the touch screen structure loaded on the shell is also easy to damage in the long-term past.

Disclosure of Invention

Aiming at the defects and problems in the prior art, the utility model aims to provide the control panel fixing shell component and the control panel which are flexible in installation position, small in size, safe and attractive, and convenient to charge or replace a power supply.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

An embedded smart lock control panel stationary housing assembly comprising:

a front housing having a first card portion extending outwardly from a front end peripheral edge thereof and being limited to the outside of the insert body; the front end of the front shell is also provided with a first screen groove for embedding a screen, the rear end of the front shell is provided with a first circuit board groove for accommodating a circuit board, and the first screen groove is communicated with the first circuit board groove at a corresponding connection part;

The front end of the rear shell is provided with a second screen groove for embedding a screen, the rear end of the rear shell is provided with a second circuit board groove for accommodating a circuit board, and the second screen groove is communicated with the second circuit board groove at the corresponding connecting part;

A power supply mounting shell, wherein the outer peripheral edge of the front end of the power supply mounting shell is outwards extended with a second clamping part which is limited outside the embedded body; the front end of the power supply installation shell is also provided with a battery groove for accommodating a lithium battery, the rear end of the power supply installation shell is provided with a third circuit board groove for accommodating a power supply control circuit, and the battery groove is communicated with a corresponding connection part of the third circuit board groove;

the front end of the power supply installation shell is in sliding clamping connection with the rear shell.

Preferably, one of the rear end face of the rear housing and the front end face of the power supply installation housing is provided with an outwardly protruding clamping block, a clamping groove is formed in the side wall of the clamping block, an L-shaped clamping piece is arranged at the corresponding position of the other of the rear end face of the rear housing and the front end face of the power supply installation housing, and when the rear housing slides to the right position along the power supply installation housing, the clamping piece is matched with the clamping groove in a clamping mode.

Preferably, one of the rear end face of the rear housing and the front end face of the power supply mounting case is provided with a slide groove for guiding the sliding direction, and the other of the rear end face of the rear housing and the front end face of the power supply mounting case is fitted with a guide member slidable on the slide groove.

Preferably, one of the rear end face of the rear housing and the front end face of the power supply installation housing is symmetrically provided with an inverted-L-shaped fastener protruding outwards, and the other corresponding position of the rear end face of the rear housing and the front end face of the power supply installation housing is provided with a transverse block which can be limited in the fastener.

Preferably, the first screen groove is arranged above the front end face of the front shell, and a key hole for embedding a fingerprint unlocking touch key is further formed below the front end face of the front shell.

Preferably, the front housing comprises a front housing cover, the front housing cover is arranged on the rear end face of the front housing and used for sealing the first circuit board groove, and the front housing cover is provided with a data line hole.

Preferably, the rear end of the power supply installation shell is fixedly connected with the front shell through a connecting piece, the connecting piece is provided with a through internal threaded hole, and the power supply installation shell and the front shell cover are respectively connected with two ends of the connecting piece through screws.

Preferably, a front mounting bracket is further connected between the front housing and the embedded body, one end of the front mounting bracket is fixedly connected with the embedded body, and the other end of the front mounting bracket extends to the first clamping part of the front housing and is fixedly connected with the first clamping part.

Preferably, a rear mounting bracket is also connected between the embedded body and the power supply mounting shell.

A control panel comprises the embedded intelligent lock control panel fixing shell assembly.

The screen comprises a touch screen, a display screen or a screen body structure with touch control and display functions, wherein the touch screen is combined with the display screen.

The insert of the present utility model may include a door body, a cabinet body, a wall body, a door handle, etc. suitable for receiving the control panel fixing housing assembly of the present utility model.

The first and second clamping parts of the utility model are used for exposing a part of the front shell and the power supply mounting groove outside the embedded body. The embedded design ensures that the control panel does not protrude out of the embedded body too much, is more difficult to pry and has stronger safety performance while being attractive. Secondly, the control panel of the utility model can be a opposite-pull type mounting structure or can be respectively mounted. Namely, the front panel can be arranged on the wall or the door body at a position which is not right opposite to the power supply installation shell, so that the flexibility is strong, the concealment is good, and the anti-theft performance is better. The components are distributed reasonably, and separation and protection measures are taken, so that poor connection caused by error contact of electronic components is avoided. The control panel reduces the volume, and simultaneously, overall structure's stability is stronger, more durable. The rear shell and the power supply installation shell are clamped by sliding fit, so that the power supply is convenient to disassemble, the dynamic and static are smaller, the service life of each electronic component is prolonged, and meanwhile, the power supply is convenient to charge or replace.

Drawings

Fig. 1 is an exploded view of a control panel according to embodiment 1 of the present utility model mounted on a door body;

FIG. 2 is an exploded view of the front control panel of embodiment 1 of the present utility model;

FIG. 3 is a schematic view of the front housing of embodiment 1 of the present utility model with an angle different from that of FIG. 2;

Fig. 4 is a schematic diagram of the installation structure of the rear housing and the cat eye touch screen according to embodiment 1 of the present utility model;

FIG. 5 is a schematic view of the rear housing and the cat eye touch screen according to embodiment 1 of the present utility model, with an angle different from that of FIG. 4;

fig. 6 is a schematic structural view of a power supply mounting case of embodiment 1 of the present utility model;

FIG. 7 is a schematic view showing the installation of the power supply mounting shell and the rear mounting bracket according to embodiment 2 of the present utility model;

FIG. 8 is a schematic structural view of a rear mounting bracket according to embodiment 2 of the present utility model;

FIG. 9 is a schematic view illustrating the installation of the front housing and the front mounting bracket according to embodiment 2 of the present utility model;

Fig. 10 is a schematic view of the front mounting bracket structure of embodiment 2 of the present utility model.

Detailed Description

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

The utility model is further described below with reference to fig. 1-7 and the detailed description:

an embedded intelligent lock control panel fixed housing, comprising:

The front casing 10, the outer peripheral edge of front end of front casing 10 outwards extends has the card to be limited to the first card portion 11 outside the embedding body, the front end of front casing 10 still offers the first screen groove 12 that can supply the screen to inlay the dress, the rear end of front casing 10 has offered the first circuit board groove 13 of holding the circuit board, first screen groove 12 and first circuit board groove 13 are in corresponding connecting portion UNICOM.

The rear housing 30, the front end of the rear housing 30 has a second screen slot 301 for the screen to be embedded, the rear end of the rear housing 30 has a second circuit board slot 302 for accommodating the circuit board, and the second screen slot 301 and the second circuit board slot 302 are communicated with each other at the corresponding connection part;

The power supply installation shell 31, a battery slot 311 for accommodating a lithium battery is formed in the front end of the power supply installation shell 31, a third circuit board slot 312 for accommodating a power supply control circuit is formed in the rear end of the power supply installation shell 31, and the battery slot 311 is communicated with a corresponding connection part of the third circuit board slot 312; the front end peripheral edge of the power supply mounting shell 31 extends outwards to form a second clamping part 310 which is clamped and limited outside the embedded body;

the front end of the power supply mounting case 31 is slidably engaged with the rear case 30.

Further, embodiment 1 of the present utility model discloses one of the sliding clamping structures: the power supply mounting device comprises a clamping block 314 which protrudes outwards is arranged on the front end face of a power supply mounting shell 31, a clamping groove 3141 is formed in the side wall of the clamping block, and an L-shaped clamping piece 303 is arranged at the corresponding position of a rear shell 30. When the rear housing 30 slides along the edge of the end face of the power supply mounting housing 31 to be over against the mounting housing 31, the L-shaped protrusions of the clamping members 303 are clamped into the clamping grooves 3141, so that clamping fit is realized.

Further, embodiment 1 of the present utility model discloses another sliding clamping structure: the power supply mounting shell 31 comprises an inverted L-shaped fastener 315 protruding outwards is symmetrically arranged on the front end face of the power supply mounting shell 31, and a transverse block 304 which can be limited in the fastener 315 is arranged at a corresponding position of the rear shell 30. Similarly, when the rear housing 30 slides along the edge of the end face of the power supply mounting housing 31 to face the mounting housing 31, the transverse block 304 is limited in the fastener 315, so as to realize clamping. The sliding clamping structure can be used alone or in combination with the other sliding clamping structure, and when the sliding clamping structure is used in combination, the sliding clamping structure is shown in the specification and the drawing.

Further, embodiment 1 of the present utility model further includes a guide structure for guiding the sliding fit of the power supply mounting case 31 and the rear case 30, comprising: a slide groove 316 is provided on the front end surface of the power supply mounting case 31, and a guide 305 that can slide in the slide groove 316 is provided on the rear end surface of the rear case 30 in cooperation therewith. The guide structure enables the sliding fit of the power supply mounting shell 31 and the rear shell 30 to be smoother, disassembly and dynamic and static are smaller, and service life of each electronic component is prolonged.

Furthermore, embodiment 1 of the present utility model further includes a key hole 14 provided on the front end surface of the front housing 10 for embedding the fingerprint unlocking touch key module.

Further, the front housing 10 of embodiment 1 of the present utility model further includes a front housing cover 15, where the front housing cover 15 is fixedly mounted on the rear end surface of the front housing 10, and is used for closing the first circuit board slot 13 to provide protection for the circuit board. The front cover 15 is provided with a data line hole 151.

The control panel of the utility model is of a opposite-pull structure, the embedded body is a door body 2, and the front shell 10 is embedded into the front end wall surface of the door body 2; the power supply mounting shell 31 is embedded into the rear end wall surface of the door body 2, and the rear end of the power supply mounting shell 31 is fixedly connected with the front shell 10 through the connecting piece 4.

Further, the connector 4 of embodiment 1 of the present utility model has a threaded hole 41 penetrating through it, the power supply mounting case 31 is mounted with a screw coupled to one end thereof, and the front case cover 15 is provided with a coupling screw 152 screwed to the other end of the connector 4. In some embodiments 1, the connecting screw 152 may also be fixed to the front case 10. When the front shell 10 is mounted, the front end of the front shell protrudes out of the front wall of the door body 2 through the first clamping part 11, and the rear end of the front shell is embedded into the door body 2. Then, the connector 4 is screwed to the connecting screw 152 fixed in advance, and the front end of the power supply mounting case 31 is exposed to the outside of the rear wall of the door body 2 via the second engaging portion 310, and the rear end is fitted into the door body 2 and is fixed to the other end of the connector 4 via a screw. Finally, the power supply mounting case 31 is slidably engaged with the rear case 30.

Embodiment 2 is also disclosed, and embodiment 1 is different from embodiment 2 in that the front case 10 and the power supply mounting case 30 of embodiment 2 are mounted separately. In particular, the front case 10 of embodiment 2 may be disposed on a wall or the door 2 may be disposed at a position other than the power supply mounting case 30, which is more flexible and theft-proof.

Specifically, a front mounting bracket 7 is further connected between the front housing 10 and the embedded body, as shown in fig. 9 of the specification, a mounting hole is formed in one end face of the front mounting bracket 7, and the front mounting bracket can be fixedly connected with the embedded body through a fixing screw. The first clamping part 11 of the front shell is provided with a mounting hole 16 and a mounting groove 17, and the other end of the front mounting bracket 7 extends into the mounting groove 17 of the first clamping part 11 of the front shell and is fixedly connected with the first clamping part 11 through a screw. In some embodiments, the front mounting bracket 7 may also replace the front cover 15 to close the first circuit board slot 13 and provide protection for the circuit board. The embedded body can be a wall body, and the wall body is internally provided with wire holes which lead to the lock body in the door body and the power supply installation shell 31.

Specifically, a rear mounting bracket 8 is also connected between the embedded body and the power supply mounting shell 31. During installation, the rear mounting bracket 8 is firstly mounted in the embedded body through screws, then the power supply mounting shell 31 is mounted, and finally the rear shell 30 is in sliding clamping connection with the power supply mounting shell 31. The insert in this case is the door body 2.

The utility model also discloses a control panel applying the embodiment 1, wherein the control panel comprises a front control panel 1 and a rear control panel 3, and the front control panel 1 comprises a front shell 10, a first touch screen 40, a first control circuit board 50 and a front shell cover 15. The first screen groove 12 is provided above the front end surface of the front case 10, and the first touch screen 40 is fitted therein. The first control circuit board 50 is mounted in the first circuit board slot 13 at the rear end of the front case 10. The first touch screen 40 may include a face recognition area, a cat-eye camera area, a door lock indicator light, a keypad area, a low power indicator light, a card recognition area, etc., and the above functional areas are electrically connected to the first control circuit board 50, respectively. Next, the first control circuit board 50 further includes a fingerprint sensor module, and a fingerprint unlocking touch key of the fingerprint sensor module is embedded in the lower key hole 14 of the front end surface of the front housing 10. The positioning of the key holes 14 is more consistent with the user's operating habits.

The rear control panel 3 includes a rear housing 30, a second touch screen 60, a second control circuit board, a lithium battery, a power supply mounting case 31, a power supply control circuit board, and the like. The second touch screen 60 is a cat-eye touch screen, and includes a video display area and a touch area, wherein the video display area is on the top, and the touch area is on the bottom. A display screen groove 3010 which is concave inwards and can be used for embedding the display screen 70 is also arranged in the second touch screen groove 301; the second circuit board slot 302 is formed below the rear end of the rear housing 30 for mounting a second control circuit board. The second touch screen slot 301 is communicated with the second circuit board slot 302, and pins of the second control circuit board are electrically connected with the second touch screen 60 and the display through the communicating part. The rear housing 30 is further provided with a rear housing cover 306 for closing the second circuit board slot 302, and the lateral block 304 may be provided at an outer peripheral edge of the rear housing cover 306.

The battery slot 311 is arranged above the front end of the power supply mounting shell 31 and is used for accommodating a lithium battery; the third circuit board slot 312 is formed below the rear end of the power supply mounting case 31; the third circuit board slot 312 is disposed corresponding to the second circuit board slot 302, and accommodates a power control circuit board. The power supply control circuit board is mainly used for supplying power to other components of the control panel. As shown in the drawings, the third circuit board slot 312, the second circuit board slot 301 and the battery slot 311 are provided with pin holes 80 communicated with each other, so that the components are conveniently electrically connected by pins. The first control circuit board 50, the electronic lock body and the power control circuit board are respectively connected by data lines, and the data lines of the first control circuit board 50 pass through the data line holes 151 of the front cover 10. The second control circuit board further comprises a speaker module, and a sound channel hole 317 communicated with the outside is formed in the power supply mounting shell 31 near the second circuit board slot 302 for transmitting sound.

It will be apparent to those skilled in the art from this disclosure that various other changes and modifications can be made which are within the scope of the utility model as defined in the appended claims.

Claims (10)

1. An embedded intelligent lock control panel fixed housing assembly, characterized by comprising:

a front housing having a first card portion extending outwardly from a front end peripheral edge thereof and being limited to the outside of the insert body; the front end of the front shell is also provided with a first screen groove for embedding a screen, the rear end of the front shell is provided with a first circuit board groove for accommodating a circuit board, and the first screen groove is communicated with the first circuit board groove at a corresponding connection part;

The front end of the rear shell is provided with a second screen groove for embedding a screen, the rear end of the rear shell is provided with a second circuit board groove for accommodating a circuit board, and the second screen groove is communicated with the second circuit board groove at the corresponding connecting part;

A power supply mounting shell, wherein the outer peripheral edge of the front end of the power supply mounting shell is outwards extended with a second clamping part which is limited outside the embedded body; the front end of the power supply installation shell is also provided with a battery groove for accommodating a lithium battery, the rear end of the power supply installation shell is provided with a third circuit board groove for accommodating a power supply control circuit, and the battery groove is communicated with a corresponding connection part of the third circuit board groove;

the front end of the power supply installation shell is in sliding clamping connection with the rear shell.

2. The embedded intelligent lock control panel fixing shell assembly according to claim 1, wherein one of a rear end face of the rear shell and a front end face of the power supply installation shell is provided with a clamping block protruding outwards, a clamping groove is formed in a side wall of the clamping block, an L-shaped clamping piece is arranged at a position corresponding to the other one of the rear end face of the rear shell and the front end face of the power supply installation shell, and the clamping piece is in clamping fit with the clamping groove when the rear shell slides to a right-facing position along the power supply installation shell.

3. The embedded intelligent lock control panel fixing housing assembly according to claim 1, wherein one of a rear end face of the rear housing and a front end face of the power supply mounting housing is provided with a slide groove guiding a sliding direction, and the other of the rear end face of the rear housing and the front end face of the power supply mounting housing is fitted with a guide member slidable on the slide groove.

4. The embedded intelligent lock control panel fixing housing assembly according to claim 1, wherein one of a rear end face of the rear housing and a front end face of the power supply installation housing is symmetrically provided with an inverted-L-shaped fastener protruding outwards, and a transverse block which can be limited in the fastener is arranged at a corresponding position of the other one of the rear end face of the rear housing and the front end face of the power supply installation housing.

5. The embedded intelligent lock control panel fixed shell assembly according to claim 1, wherein the first screen groove is arranged above the front end face of the front shell, and a key hole for embedding a fingerprint unlocking touch key is further formed below the front end face of the front shell.

6. The embedded intelligent lock control panel fixing housing assembly of claim 1, wherein the front housing comprises a front housing cover, the front housing cover is arranged on the rear end face of the front housing and is used for sealing the first circuit board groove, and the front housing cover is provided with a data line hole.

7. The embedded intelligent lock control panel fixing shell assembly according to claim 6, wherein the rear end of the power supply installation shell is fixedly connected with the front shell through a connecting piece, the connecting piece is provided with a penetrating internal threaded hole, and the power supply installation shell and the front shell cover are respectively connected with two ends of the connecting piece through screws.

8. The embedded intelligent lock control panel fixing shell assembly according to claim 1, wherein a front mounting bracket is further connected between the front shell and the embedded body, one end of the front mounting bracket is fixedly connected with the embedded body, and the other end of the front mounting bracket extends to the first clamping part of the front shell and is fixedly connected with the first clamping part.

9. The embedded intelligent lock control panel fixing housing assembly of claim 1, wherein a rear mounting bracket is further connected between the embedded body and the power supply mounting housing.

10. A control panel comprising an embedded smart lock control panel securing housing assembly as claimed in any one of claims 1 to 9.