CN210225953U - Electronic equipment - Google Patents

Abstract

The application discloses an electronic device. The electronic device includes: the locking device comprises a shell, a first cover plate component, a second cover plate component and a locking piece. The shell is provided with a battery compartment; the first cover plate component is hinged with the shell in the first direction to seal the battery compartment, and is provided with a locking part; the second cover plate component is connected with the first cover plate component in a sliding mode in a second direction and is connected with the shell in a buckling mode, and the second direction is perpendicular to the first direction; the locking piece is in sliding fit with the second cover plate assembly in the first direction, the locking piece forms a locking state or an unlocking state relative to the locking part when sliding, the second cover plate assembly is connected with the shell in a buckling mode in the locking state, and the second cover plate assembly can slide far away from the shell relative to the first cover plate assembly in the unlocking state. In this way, this application can improve holistic structural strength of electronic equipment and compact structure to realize better closing cap intensity, can prevent to fall or battery production when colliding is not hard up or drops, also improves advantages such as waterproof performance simultaneously.

Description

Electronic equipment

Technical Field

The present application relates to the field of electronic devices, and more particularly, to an electronic device.

Background

With the rapid development of science and technology, more and more electronic products enter our daily life. People are also improving high-quality life, such as electronic products have higher requirements on dust prevention, water prevention, falling prevention and the like.

For example, most of the battery covers of the current electronic devices have the problems that the overall structural strength is not high, the battery cover covers the battery compartment with insufficient strength, and the internal power supply battery is easy to loosen or fall off when the battery cover falls off or collides greatly.

Disclosure of Invention

The technical problem that this application mainly solved provides one kind and has structural strength height, and the better electronic equipment of closing cap intensity.

In order to solve the technical problem, the application adopts a technical scheme that: there is provided an electronic device including: the locking device comprises a shell, a first cover plate component, a second cover plate component and a locking piece. The shell is provided with a battery bin; the first cover plate assembly is hinged with the shell in a first direction to cover the battery compartment, and a locking part is arranged on the first cover plate assembly; the second cover plate component is connected with the first cover plate component in a sliding mode in a second direction and is connected with the shell in a buckling mode, and the second direction is perpendicular to the first direction; the locking piece in the first direction with second apron subassembly sliding fit, the locking piece is relative when sliding the hasp portion constitutes locking state or unblock state, the locking state down the second apron subassembly with the casing lock joint is connected, the unblock state down the second apron subassembly can be relative first apron subassembly does keep away from the slip of casing.

The electronic equipment further comprises a hinge shaft, the shell is provided with a hinge part, and the first cover plate component is hinged to the hinge part through the hinge shaft.

The first cover plate component further comprises a hinged plate, one side edge of the hinged plate is sleeved with the hinged shaft, a sliding guide plate is formed on the hinged plate in the second direction, a sliding groove is formed in the second direction of the second cover plate component, and the sliding guide plate is matched with the sliding groove to enable the second cover plate component to slide back and forth in the second direction.

The second cover plate assembly comprises a bottom plate connecting plate and a folded plate which are sequentially connected, and the bottom plate, the connecting plate and the folded plate form the sliding groove.

The first cover plate assembly further comprises a cover sealing plate, the cover sealing plate is connected with the hinge plate in a buckling mode, and the cover sealing plate is used for sealing the battery compartment.

The cover sealing plate is provided with a buckling block, and the hinged plate is provided with a buckling hole matched with the buckling block.

The buckle block comprises a base and an inverted buckle arranged at the top of the base.

The first cover plate assembly further comprises a silica gel sleeve, and the silica gel sleeve is arranged on the sealing cover plate.

The hinged plate is provided with a cutting groove and a pressing and buckling elastic sheet which extends into the cutting groove and extends in the second direction, the second cover plate assembly is provided with a limiting groove in the second direction, and the pressing and buckling elastic sheet is elastically pressed into the limiting groove to limit the sliding of the second cover plate assembly relative to the first cover plate assembly.

The limiting groove is formed by a plate body which is formed by enclosing 4 plates protruding out of the surface of the second cover plate component into a rectangular frame shape.

The locking piece comprises a main body part and a lug part, the main body part is arranged between the first cover plate component and the second cover plate component, and the second cover plate component is provided with a through hole to expose the lug part.

The locking piece is characterized by further comprising elastic arms connected to two sides of the main body portion, the elastic arms are provided with wavy sliding fit portions, the second cover plate assembly is provided with wavy slideways arranged at intervals, the elastic arms are matched with the slideways, and the elastic arms are folded to slide when thrust is applied.

The shell is provided with a first buckling groove, and the second cover plate assembly is provided with a first buckling block matched with the first buckling groove, so that the first cover plate assembly is connected with the shell in a buckling mode in the second direction.

The shell is further provided with a second buckling groove, and the second cover plate assembly is provided with a second buckling block matched with the second buckling groove, so that the first cover plate assembly is connected with the shell in a buckling mode in the second direction.

The electronic equipment further comprises a display panel, and the display panel is arranged on the shell.

The display panel is a touch display panel.

The electronic equipment is one of a mobile terminal, a photographing device and a recording device.

Compared with the prior art, the beneficial effects of this application are: the battery compartment is sealed by the aid of the first cover plate assembly and the shell in a hinged connection mode, and the second cover plate assembly is connected with the first cover plate assembly in a sliding mode and is buckled with the shell; the locking piece with second apron subassembly sliding fit, the locking piece is relative when sliding the hasp portion constitutes locking state or unblock state, under the locking state the second apron subassembly with the casing lock is connected, under the unblock state the second apron subassembly can be relative first apron subassembly is done and is kept away from the slip of casing. This application adopts above-mentioned mode can improve the holistic structural strength of electronic equipment, and compact structure, and then realizes better closing cap intensity, can prevent to fall or battery production when colliding become flexible or drop, also can improve advantages such as electronic equipment's waterproof performance simultaneously.

Drawings

Fig. 1 is a schematic overall structure diagram of an electronic device according to an embodiment of the present application;

fig. 2 is a schematic overall structure diagram of a battery compartment opening state of an electronic device according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram illustrating a closed state of a locking member of an electronic device according to an embodiment of the present application;

FIG. 4 is a schematic structural diagram illustrating an opened state of a locking member of an electronic device according to an embodiment of the present application;

FIG. 5 is an exploded view of a first cover plate assembly of an electronic device according to an embodiment of the present disclosure;

fig. 6 is a schematic cross-sectional structural diagram of a fastening block of an electronic device according to an embodiment of the present application;

FIG. 7 is a schematic diagram of a locking member of an electronic device according to an embodiment of the present application;

FIG. 8 is a schematic view of a second cover assembly and a locking member of an electronic device according to an embodiment of the present disclosure;

fig. 9 is a schematic cross-sectional structural view of a chute of an electronic device according to an embodiment of the present application;

FIG. 10 is a schematic diagram of a second cover assembly, locking member, hinge plate assembly of the electronic device of an embodiment of the present application;

fig. 11 is a schematic structural diagram of a housing of an electronic device according to an embodiment of the present application;

fig. 12 is an exploded schematic view of the overall structure of an electronic device according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clear, the present application will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 12, fig. 1 is a schematic view of an overall structure of an electronic device provided in the present application. An electronic device is provided. The electronic device 10 may be one of a mobile terminal, a photographing device, an audio/video recording device, and the like. For example, the mobile terminal may include a cell phone, tablet, palmtop, etc. The photographing device may include a camera, a mobile phone, etc. The audio and video recording device can comprise a vehicle event recorder, a camera, an audio and video law enforcement recorder and the like. The electronic device 10 may include: a housing 100, a first cover plate assembly 120, a second cover plate assembly 140, and a locking member 160. The first cover plate assembly 120 is hinged to the housing 100; the second cover plate assembly 140 is slidably connected to the first cover plate assembly 120 and is snap-fitted to the housing 100; the locking member 160 is slidably engaged with the second cover plate assembly 140.

Referring to fig. 2 to 6, specifically, the housing 100 is provided with a battery compartment 102. The first cover assembly 120 is hingedly coupled to the housing 100 in a first direction (as indicated by the arrow in fig. 3) to cover the battery compartment 102. The first cover plate assembly 120 is provided with a locking portion 122. The second cover member 140 is slidably connected to the first cover member 120 and snap-fit to the housing 100 in a second direction (e.g., the direction of the arrow in fig. 4). The second direction is perpendicular to the first direction. The locking member 160 is slidably engaged with the second cover plate assembly 140 in the first direction. The locking member 160 is configured to be locked or unlocked with respect to the locking portion 122 when slid. The second cover assembly 140 is snap-fit to the housing 100 in the locked state (as shown in fig. 3). The second cover assembly 140 is slidable relative to the first cover assembly 120 away from the housing 100 in the unlocked state (as shown in fig. 4). This application adopts above-mentioned mode can improve the holistic structural strength of electronic equipment, and has compact structure, and then realizes better closing cap intensity, and the battery produces not hard up or drops when can preventing to fall, and the waterproof performance that also can improve electronic equipment simultaneously is good.

The electronic device 10 may also include a hinge shaft 124. The housing 100 may be provided with a hinge portion 104, and the first cover plate assembly 120 is hinged to the hinge portion 104 by a hinge shaft 124. In the above manner, the first cover assembly 120 can be hinged to the hinge portion 104 through the hinge shaft 124 to open or close the battery compartment 102 in such a manner that the first cover assembly 120 is flipped with respect to the housing 100. It is understood that the first cover plate assembly 120 and the hinge portion 104 can be connected by riveting to open or close the battery compartment 102 in a manner that enables the first cover plate assembly 120 to be flipped relative to the housing 100.

The first cover plate assembly 120 also includes a hinge plate 126. One side edge of the hinge plate 126 is fitted over the hinge shaft 124, and the hinge plate 126 is formed with a slide guide plate 1262 in the second direction. The second cover member 140 is provided with a slide groove 142 in the second direction, and a slide guide plate 1262 is engaged with the slide groove 142 to slide the second cover member 140 back and forth in the second direction. Referring to fig. 9, the second cover plate assembly 140 includes a bottom plate 1421, a connecting plate 1422, and a folding plate 1423, which are connected in sequence, wherein the bottom plate 1421, the connecting plate 1422, and the folding plate 1423 form the sliding slot 142. The sliding slot 142 is used for accommodating the sliding guide plate 1262 to move in the sliding slot 142. The shape of the slide groove 142 may be C-shaped or Contraband-shaped, and the slide groove 142 may have other shapes or structures, and the slide guide plate 1262 may be accommodated in the slide groove 142. In the above manner, the second cover plate assembly 140 can slide back and forth along the slide guide plate 1262 in the second direction, thereby opening or closing the battery compartment 102.

The first cover plate assembly 120 also includes a cover plate 128. A cover plate 128 is snap-fit to the hinge plate 126, the cover plate 128 for covering the battery compartment 102. Specifically, the cover plate 128 is provided with a catch block 1210. The hinge plate 126 is provided with a button hole 1264 that mates with the button block 1210. The button block 1210 includes a base portion 12101 and an inverted button 12102 (see fig. 6) provided on the top of the base portion 12101. In this way, the cover plate 128 and the hinge plate 126 can be quickly mounted and dismounted, and maintenance is facilitated.

The first cover plate assembly 120 further includes a silicone sleeve 1212, and the silicone sleeve 1212 is disposed on the sealing cover plate 128. By adopting the above formula, the silica gel sleeve 1212 is arranged on the cover plate 128, so that a better sealing effect can be further realized, and the waterproof performance of the electronic device can also be improved. It can be understood that the silicone sleeve 1212 may also be a rubber sleeve, which may also achieve a better sealing effect and improve the waterproof performance of the electronic device.

The hinge plate 126 is provided with a slot 1266 and a snap spring 1268 extending into the slot 1266 and extending in a second direction. The second cover plate assembly 140 has a limiting groove 144 in the second direction, and the pressing spring 1268 is elastically pressed into the limiting groove 144 to limit the sliding of the second cover plate assembly 140 relative to the first cover plate assembly 120. The limiting groove 144 is formed by enclosing 4 plates protruding from the surface of the second cover plate assembly 140 to form a rectangular plate. In this way, the second cover plate assembly 140 can slide within an allowable range relative to the first cover plate assembly 120, and can prevent the second cover plate assembly 140 from being loosened from the first cover plate assembly 120 due to sliding over. The second cover plate assembly 140 and the first cover plate assembly 120 can be quickly mounted and dismounted with each other in the above manner, so that convenience is brought to maintenance.

Referring to fig. 7, 8 and 10, the locking element 160 includes a main body portion 162 and a protrusion portion 164. The body portion 162 is disposed between the first cover plate assembly 120 and the second cover plate assembly 140. Referring also to fig. 4, the second cover plate assembly 140 is provided with a through hole 1412 to expose the protrusion 164, so that the user can slide the locking member 160 to slidingly engage with the second cover plate assembly 140 in the first direction by shifting the protrusion 164. The locking member 160 is configured to be locked or unlocked with respect to the locking portion 122 when slid.

The locking member 160 further includes resilient arms 166 connected to opposite sides of the body portion 162. The spring arm 166 is provided with an undulating slide-fit portion 1662. The second cover plate assembly 140 is provided with spaced undulating ramps 146. The resilient arms 166 engage the ramps 146 and the resilient arms 166 collapse to slide when the locking member is pushed. Specifically, two side walls of the opposite side of the second cover plate assembly 140 from the first cover plate assembly 120 may be provided with slideways 146 extending along the first direction, the slideways 146 have wave shapes arranged at intervals, that is, two opposite wavy slideways 146 are provided on the side walls of the opposite side of the second cover plate assembly 140 from the first cover plate assembly 120, and the wave-shaped slideways 146 are formed by wave crests and wave troughs at intervals. The wavy slide rails 146 are engaged with wavy slide-engaging portions 1662 of the elastic arms 166 connected to both sides of the main body portion 162, and the elastic arms 166 are folded to slide when the locking member 160 is pushed, so that the locking member 160 can move in the first direction. The second cover assembly 140 is configured to be in a locked state or an unlocked state with respect to the locking portion 122 when the locking member 160 slides under the action of the elastic arm 166 and the locking portion 122. In the above manner, the locking member 160 can maintain the second cover plate assembly 140 locked or unlocked by sliding.

Referring to fig. 11 to 12, the housing 100 is provided with a first catching groove 106 and a second catching groove 108. Referring also to fig. 10, the second cover plate assembly 140 is provided with a first fastening block 148 matching with the first fastening slot 106, so that the first cover plate assembly 120 is fastened to the housing 100 in the second direction. The second cover plate assembly 140 is provided with a second fastening block 1410 matched with the second fastening slot 108, so that the first cover plate assembly 120 is fastened with the housing 100 in the second direction. Specifically, when the locked state is required, the second cover plate assembly 140 slides along the sliding guide plate 1262 in the second direction and approaches the housing 100, so that the first and second catch blocks 148 and 1410 of the second cover plate assembly 140 are respectively in snap connection with the first and second catch grooves 106 and 108 of the housing 100. When in the unlocked state, the second cover plate assembly 140 slides along the sliding guide plate 1262 in the second direction and away from the housing 100, so that the first and second catch blocks 148 and 1410 of the second cover plate assembly 140 are separately connected with the first and second catch grooves 106 and 108 of the housing 100, respectively. In the above manner, the housing 100 can realize the fast covering or separating of the second cover plate assembly 140 through the cooperation of the first fastening slot 106 and the second fastening slot 108 with the first fastening block 148 and the second fastening block 1410, and the covering strength is high.

The electronic device 10 may further include a display panel (not shown) provided on the housing 100. The display panel may be a touch display panel. The display panel may also be a display panel without touch functionality. The touch display panel can simplify the structure of the electronic device 10 and contribute to improving the waterproof effect. If the display panel is a display panel without a touch function, the electronic device 10 may provide a plurality of mechanical keys on the casing 100, such as function setting, power on/off, start/pause, volume adjustment, etc. to implement functions related to operating the electronic device 10.

This application adopts above-mentioned mode can improve the holistic structural strength of electronic equipment, and compact structure, and then realizes better closing cap intensity, can prevent to fall or battery production when colliding become flexible or drop, also can improve advantages such as electronic equipment's waterproof performance simultaneously.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings, or which are directly or indirectly applied to other related technical fields, are intended to be included within the scope of the present application.

Claims (10)

1. An electronic device, characterized in that the electronic device comprises:

the battery box comprises a shell, a battery box body and a battery box body, wherein the shell is provided with a battery bin;

the first cover plate assembly is hinged with the shell in a first direction to cover the battery compartment, and a locking part is arranged on the first cover plate assembly;

the second cover plate assembly is in sliding connection with the first cover plate assembly in a second direction and is in buckling connection with the shell, and the second direction is perpendicular to the first direction;

the locking piece, the locking piece in the first direction with second apron subassembly sliding fit, the locking piece is relative when sliding the hasp portion constitutes locking state or unblock state, under the locking state the second apron subassembly with the casing lock joint is connected, under the unblock state the second apron subassembly can be relative first apron subassembly is done and is kept away from the slip of casing.

2. The electronic device of claim 1, further comprising a hinge shaft, wherein the housing is provided with a hinge portion, and wherein the first cover assembly is hinged to the hinge portion via the hinge shaft.

3. The electronic device according to claim 2, wherein the first cover member includes a hinge plate, a side of the hinge plate is fitted with the hinge shaft, the hinge plate is formed with a slide guide plate in the second direction, the second cover member is provided with a slide groove in the second direction, and the slide guide plate cooperates with the slide groove to slide the second cover member back and forth in the second direction.

4. The electronic device of claim 3, wherein the first cover assembly further comprises a cover plate, the cover plate being snap-fit with the hinge plate, the cover plate being for covering the battery compartment;

the cover sealing plate is provided with a buckling block, and the hinged plate is provided with a buckling hole matched with the buckling block.

5. The electronic device of claim 4, wherein the first cover plate assembly further comprises a silicone sleeve, and the silicone sleeve is disposed on the cover plate.

6. The electronic device of claim 3, wherein the hinge plate has a slot and a snap spring extending into the slot and extending in the second direction, the second cover assembly has a position-limiting slot in the second direction, and the snap spring is resiliently pressed into the position-limiting slot to limit sliding of the second cover assembly relative to the first cover assembly.

7. The electronic device of claim 1, wherein the locking member includes a main body portion and a protruding portion, the main body portion is disposed between the first cover plate assembly and the second cover plate assembly, and the second cover plate assembly is provided with a through hole to expose the protruding portion.

8. The electronic device of claim 7, wherein the locking member further comprises resilient arms connected to opposite sides of the main body portion, the resilient arms having undulating sliding engagement portions, the second cover assembly having undulating spaced apart slides, the resilient arms engaging the slides and collapsing to slide when pushed.

9. The electronic device of claim 1, wherein the housing is provided with a first slot, and the second cover assembly is provided with a first block that matches the first slot, so that the first cover assembly is connected to the housing in a snap-fit manner in the second direction.

10. The electronic device of claim 9, wherein the housing further has a second slot, and the second cover assembly has a second block that matches the second slot, so that the first cover assembly is connected to the housing in a second direction.

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