CN219286813U - Electronic equipment - Google Patents

Abstract

The application discloses electronic equipment, it includes the casing, battery cover and power strip, the casing includes the storehouse body, battery cover detachably installs in the casing, battery cover and storehouse form battery accommodation space, in order to hold the battery, the storehouse body electricity is connected the power strip, the power strip is equipped with first electric contact and second electric contact, one of casing and battery cover is equipped with the elastic conduction piece, the battery cover is equipped with the electric connection piece, the elastic conduction piece is in electrical contact with electric connection piece and storehouse body respectively, under the condition of installing the battery in the battery accommodation space, first electric contact electricity is connected the first polarity end of battery; the second electric contact part is electrically connected with the bin body, and the electric connecting piece is electrically connected with the second polarity end of the battery, so that the second electric contact part is electrically connected with the second polarity end of the battery. The scheme can solve the problem that the electronic equipment related to the related technology is low in reliability of power connection.

Description

Electronic equipment

Technical Field

The application belongs to the technical field of electronic equipment design, and particularly relates to electronic equipment.

Background

Currently, batteries are commonly used in electronic devices. When the electronic equipment works, the anode and the cathode of the battery are required to be electrically connected, so that the connection conduction of the electronic equipment is realized.

The electronic equipment related to the related technology realizes the connection conduction in a wired mode, so that the electronic equipment can work normally. However, in such a manner of electrical connection, when the electronic device is bumped, there is a problem that the wire ends come loose and the contact is poor, and the reliability of the electrical connection is lowered.

Disclosure of Invention

The utility model discloses electronic equipment, which aims to solve the problem that the reliability of power connection of the electronic equipment related to the related technology is not high.

In order to solve the technical problems, the utility model provides the following technical scheme:

an electronic device comprises a shell, a battery cover and a power panel, wherein the shell comprises a bin body,

the battery cover is detachably arranged on the shell, the battery cover and the bin body form a battery accommodating space to accommodate a battery, the bin body is electrically connected with the power panel,

the power panel is provided with a first electric contact part and a second electric contact part, one of the shell and the battery cover is provided with an elastic conductive piece, the battery cover is provided with an electric connecting piece, the elastic conductive piece is respectively in electric contact with the electric connecting piece and the bin body,

the first electrical contact is electrically connected to a first polarity end of the battery with the battery mounted in the battery receiving space; the second electric contact part is electrically connected with the bin body, and the electric connecting piece is electrically connected with the second polarity end of the battery, so that the second electric contact part is electrically connected with the second polarity end of the battery.

The technical scheme adopted by the utility model can achieve the following technical effects:

according to the electronic equipment disclosed by the embodiment of the application, through improving the structure of the electronic equipment related to the related technology, the elastic conductive piece is electrically connected with the electric connecting piece and the bin body respectively, the second polarity end of the battery is electrically connected with the bin body through the electric connecting piece, the second electric contact part of the power panel is electrically connected with the bin body, the second electric contact part can be electrically connected with the second polarity end of the battery through the elastic conductive piece which is electrically contacted with the electric connecting piece and the bin body respectively, the elastic conductive piece is compressed to realize tight electric connection, and meanwhile, the first polarity end of the battery is electrically connected with the first electric contact part of the power panel to realize the electric connection conduction of the power panel. The structure avoids the connection and conduction in a connecting wire mode, thereby avoiding poor contact caused by loose end parts of the connecting wires when the electronic equipment is impacted, and further improving the reliability of the connection and conduction of the power panel.

Drawings

FIG. 1 is a partial cross-sectional view of an electronic device disclosed in an embodiment of the present application;

FIG. 2 is another angled, partial cross-sectional view of an electronic device as disclosed in an embodiment of the present application;

fig. 3 is a schematic view of a part of the structure of an electronic device disclosed in an embodiment of the present application;

FIG. 4 is a schematic view of the structure of a cartridge body disclosed in an embodiment of the present application;

fig. 5 is a schematic structural view of a battery cover disclosed in an embodiment of the present application.

Reference numerals illustrate:

100-shell, 110-bin, 101-clamping groove, 1011-plug-in section, 1012-hanging section, 120-shell body,

200-battery cover, 220-cover body, 230-electric connector, 231-electrode connecting piece, 232-third elastic piece, 233-cap body, 210-clamping part, 201-locking matching space, 240-rotary protrusion,

300-locking part, 310-locking body, 320-first elastic piece, 330-first screw piece, 340-face cover, 311-bar-shaped hole,

410-a power panel, 420-a second elastic member, 430-an elastic conductive member,

500-battery,

610-first seal, 620-second seal, 630-third seal,

700-second screw member,

800-elastic limit pad.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to specific embodiments of the present utility model and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The technical scheme disclosed by each embodiment of the utility model is described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 5, an embodiment of the present application discloses an electronic device, which includes a housing 100, a battery cover 200, and a power panel 410.

The housing 100 is a basic component of the electronic device, and the housing 100 is used to provide mounting locations for other components of the electronic device, while also being used to form some functional space or structure. In the embodiment of the present application, the case 100 includes the bin body 110, and the battery cover 200 is detachably mounted to the case 100 such that the battery cover 200 and the bin body 110 form a battery receiving space to receive the battery 500. The battery 500 supplies power to the electronic device, so that the electronic device is electrically connected.

The power panel 410 is an important component for electrical conduction of the electronic device. The power panel 410 is provided with a first electric contact portion and a second electric contact portion, one of the housing 100 and the battery cover 200 is provided with an elastic conductive member 430, the battery cover 200 is provided with an electric connection member 230, the elastic conductive member 430 is electrically connected with the electric connection member 230 and the housing 110, respectively, the housing 110 is electrically connected with the power panel 410, that is, in the case that the battery cover 200 is mounted on the housing 100, the power panel 410 is electrically connected with the electric connection member 230 through the elastic conductive member 430 electrically connected with the housing 110.

Specifically, in one embodiment, the elastic conductive member 430 is included in the battery cover 200, and at this time, the elastic conductive member 430 is electrically connected to the electrical connector 230 and is in electrical contact with the cartridge body 110. In another embodiment, the elastic conductive element 430 is included in the housing 100, and at this time, the elastic conductive element 430 is electrically connected to the cartridge body 110 and electrically contacts with the electrical connection element 230. The embodiment of the present application does not limit the installation position of the elastic conductive element 430.

In a specific operation process, in the case that the battery 500 is mounted in the battery accommodating space, the first electrical contact is electrically connected to the first polarity end of the battery 500, the second electrical contact is electrically connected to the housing 110, and the electrical connector 230 is electrically connected to the second polarity end of the battery 500, so that the second electrical contact is electrically connected to the second polarity end of the battery 500. That is, the second electrical contact is electrically connected to the housing 110, and is electrically connected to the second polarity terminal of the battery 500 through the housing 110, the elastic conductive member 430 and the electrical connection member 230, so that the power panel is electrically connected to the first polarity terminal and the second polarity terminal of the battery 500, respectively, to electrically connect and conduct the electronic device.

The electronic device disclosed in this embodiment of the present application improves the structure of the electronic device related to the related art, so that the elastic conductive element 430 is electrically connected with the electrical connection element 230 and the bin body 110 respectively, the second electrical contact portion of the power board 410 is electrically connected with the bin body 110 by setting the electrical connection element 230 and the second polarity end of the battery 500, so that the second electrical contact portion can be electrically connected with the second polarity end of the battery 500 through the elastic conductive element 430 electrically contacted with the electrical connection element 230 and the bin body 110 respectively, and the elastic conductive element 430 is compressed to realize tight electrical connection, and meanwhile, the first polarity end of the battery 500 is electrically connected with the first electrical contact portion of the power board 410 to realize electrical conduction of the power board 410. The structure avoids the connection and conduction in a wire connection mode, thereby avoiding poor contact caused by loose end parts of the wires when the electronic equipment is impacted, and further improving the reliability of the connection and conduction of the power panel 410.

In a further technical solution, the housing 110 may be all conductors, i.e. the housing 110 may be conductive as a whole, and the housing 110 may be electrically connected to the elastic conductive element 430 and the second electrical contact, respectively. Based on this, in one embodiment, the elastic conductive member 430 is included in the battery cover 200, and at this time, the elastic conductive member 430 is electrically connected with the electrical connection member 230, and is in electrical contact with the cartridge body 110. In another embodiment, the elastic conductive element 430 is included in the housing 100, and at this time, the elastic conductive element 430 is electrically connected to the cartridge body 110 and is in electrical contact with the electrical connection element 230. In this structure, in the case where the battery 500 is mounted in the battery receiving space, the second electric contact can be indirectly electrically connected to the second polarity end of the battery 500 through the housing 110, the elastic conductive member 430, and the electric connection member 230 electrically connected to each other. In this case, it is unnecessary to distinguish between the electrically conductive portion and the electrically non-conductive portion of the cartridge body 110, so that the production process of the cartridge body 110 can be simplified, thereby facilitating the production and manufacture of the cartridge body 110.

Of course, the cartridge body 110 may be partially a conductor, and the cartridge body 110 may include conductive portions that may be electrically connected to the elastic conductive member 430 and the second electrical contact, respectively. Based on this, in one embodiment, the elastic conductive member 430 is included in the battery cover 200, in which case the elastic conductive member 430 electrically contacts the conductive portion and is electrically connected with the electrical connection member 230, and the conductive portion is also electrically connected with the second electrical contact portion. In another embodiment, the elastic conductive element 430 is included in the housing 100, in which case the elastic conductive element 430 electrically contacts the electrical connection element 230 and is electrically connected to the conductive portion, which is also electrically connected to the second electrical contact. At this time, in the case where the battery 500 is mounted in the battery receiving space, the second electric contact portion can be indirectly electrically connected to the second polarity end of the battery 500 through the conductive portion, the elastic conductive member 430, and the electric connection member 230 electrically connected to each other. With this structure, the portion of the housing 110 can be electrically conductive, and the area of the electrically conductive portion of the housing 110 can be reduced. Thereby reducing the probability that the conductive part of the bin body 110 is contacted with other electrical components in the electronic equipment, and further avoiding the malfunction of the electronic equipment caused by the error of the conductive part of the bin body 110 to the electrical components in the electronic equipment.

In the embodiment of the present application, the battery cover 200 may be rotatably provided to the housing 100 such that the battery cover 200 may be rotated between an initial position and a final position. Wherein the battery cover 200 is detachably connected to the housing 100 in the initial position, and the battery cover 200 is separated from the housing 100 in the final position. That is, the battery cover 200 can be assembled and disassembled by rotating the battery cover 200, and the assembly method has a simple structure, is favorable for disassembly and is convenient for replacing the battery 500.

Specifically, the elastic conductive member 430 may be always in electrical contact with the electrical connector 230 or the cartridge body 110 in a rotational stroke in which the battery cover 200 is rotated from the initial position to the final position. Based on this, in one possible embodiment, the elastic conductive member 430 is included in the battery cover 200, in which case the elastic conductive member 430 is electrically connected to the electrical connector 230 and is in electrical contact with the housing 110, and the elastic conductive member 430 is always in electrical contact with the housing 110 during the rotation stroke of the battery cover 200 from the initial position to the final position. In another possible embodiment, the elastic conductive element 430 is included in the housing 100, in which case the elastic conductive element 430 is electrically connected to the housing 110 and is in electrical contact with the electrical connection member 230, and the elastic conductive element 430 is always in electrical connection with the electrical connection member 230 during the rotation stroke of the battery cover 200 from the initial position to the final position. With this structure, the elastic conductive member 430 is always in electrical contact with the electrical connection member 230 or the cartridge body 110, so that the elastic conductive member 430 can smoothly contact the electrical connection member 230 or the cartridge body 110 when the battery cover 200 rotates, thereby preventing the elastic conductive member 430 from obstructing the rotation of the battery cover 200.

Of course, as described above, the rotational stroke of the battery cover 200 from the initial position to the final position may further include a first rotational stroke in which the elastic conductive member 430 may not contact the electrical connection member 230, and a second rotational stroke in which the battery cover 200 is in the second rotational stroke in which the elastic conductive member 430 may electrically contact the electrical connection member 230. Based on this, in another possible embodiment, the elastic conductive element 430 may be included in the housing 100, and the elastic conductive element 430 is electrically connected with the cartridge body 110 and electrically contacted with the electrical connection element 230. The elastic conductive member 430 is not in contact with the electrical connection member 230 in the case where the battery cover 200 is in the first rotational stroke, and the elastic conductive member 430 is in electrical contact with the electrical connection member 230 in the case where the battery cover 200 is in the second rotational stroke. In this structure, the electric connector 230 is not required to be disposed in all the areas contacting the elastic conductive element 430 during the rotation of the battery cover 200, and only the electric connector 230 is required to be electrically contacted with the elastic conductive element 430 when the battery cover 200 is in the second rotation stroke, so that the consumption of the electric connector 230 to the production materials can be reduced, and the cost can be reduced.

More preferably, in order to prevent the elastic conductive member 430 from obstructing the rotation of the battery cover 200 due to the step at the junction of the electric connection member 230 and the battery cover 200, a guide structure may be provided on the electric connection member 230 between the position where the electric contact with the elastic conductive member 430 is started and the position where the electric contact is ended, that is, a guide structure may be provided at the edge where the electric connection member 230 is connected with the battery cover 200, so that the elastic conductive member 430 can be guided when the battery cover 200 enters or leaves the second rotation stroke. Based on this, in one possible embodiment, a smooth slope or the like is provided at the edge of the electrical connection member 230 where the battery cover 200 is connected, so that the elastic conductive member 430 can be guided when the battery cover 200 enters or leaves the second rotation stroke, thereby preventing the elastic conductive member 430 from obstructing the rotation of the battery cover 200, and facilitating the smooth rotation of the battery cover 200.

In a further technical solution, the battery cover 200 may be clamped to the housing 100, one of the battery cover 200 and the housing 100 may be provided with the clamping portion 210, the other may be provided with the clamping groove 101, the clamping groove 101 may include a vertical inserting section 1011 and a hanging section 1012 which are mutually communicated, that is, the clamping portion 210 may enter the hanging section 1012 through the inserting section 1011, so that the battery cover 200 is mounted on the housing 100 through the mutual cooperation of the clamping portion 210 and the clamping groove 101. In one embodiment, the battery cover 200 is provided with a clamping portion 210, and correspondingly, the housing 100 is provided with a clamping groove 101. In another embodiment, the housing 100 is provided with a clamping portion 210, and correspondingly, the battery cover 200 is provided with a clamping groove 101. The embodiment of the present application does not limit the correspondence between the clamping portion 210 and the clamping groove 101 and the housing 100 and the battery cover 200, respectively.

In a specific operation process, under the condition that the battery cover 200 is in the initial position, the clamping portion 210 is mounted on the plugging section 1011, the clamping portion 210 can rotate from the plugging section 1011 to the hanging section 1012, and the battery cover 200 can be detachably connected with the housing 100 through the hanging fit of the clamping portion 210 and the hanging section 1012. Wherein, the clamping portion 210 is restrained by the hanging portion 1012 in the axial direction of the bin body 110 when rotating to the hanging portion 1012, so that the clamping portion 210 cannot move in the axial direction of the bin body 110, and the battery cover 200 cannot be detached from the shell 100 only by moving along the axial direction of the bin body 110, meanwhile, the friction force existing between the clamping portion 210 and the hanging portion 1012 can restrain the rotation of the clamping portion 210, so that the battery cover 200 is prevented from rotating under the condition of small external force or no external force, and separation from the shell 100 is achieved.

In the case where the battery cover 200 is at the end position, the clamping portion 210 is mounted on the hooking section 1012, the clamping portion 210 can rotate from the hooking section 1012 to the plugging section 1011, and the clamping portion 210 can be removed from the plugging section 1011, so as to separate the battery cover 200 from the housing 100.

As described above, the battery cover 200 needs to be rotated from the initial position to the final position to be mounted on the housing 100, and the battery cover 200 needs to be rotated from the final position to the initial position when the battery cover 200 is detached. This kind of structure does not need extra connecting piece to fix battery cover 200, avoids the connecting piece to lose the installation that leads to unusual, simultaneously, only can accomplish the dismouting through rotatory battery cover 200, is favorable to reducing the dismouting degree of difficulty, practices thrift the dismouting time to be favorable to realizing quick assembly disassembly, conveniently change the battery.

In a preferred embodiment, the battery cover 200 may further include a cover body 220, the clamping portion 210 may be fixed to the cover body 220, and accordingly, the clamping groove 101 is disposed on the housing 100, and since the battery cover 200 is detachably mounted on the housing 100 by means of a rotational connection, the clamping portion 210 has a curvature matching with the cover body 220, and meanwhile, the curvature of the clamping groove 101 is matched with the clamping portion 210. Such a structure, in the case that the battery cover 200 is mounted in the housing 100, the battery cover 200 may be partially embedded in the housing 100, so as to avoid the whole battery cover protruding from the housing 100, thereby being beneficial to reducing the space occupied by the electronic device, and simultaneously, the portion of the battery cover 200 protruding from the housing 100 facilitates the user to rotate the battery cover 200, thereby being beneficial to improving the use experience of the user.

In order to improve the connection reliability of the battery cover 200 and the housing 100, the number of the clamping portions 210 may be plural, and the clamping grooves 101 are in one-to-one fit with the clamping portions 210, and the plurality of clamping portions 210 may be uniformly fixed on the cover body 220 at intervals, so that the battery cover 200 and the housing 100 can be connected from plural directions, and the stress in each connection direction of the battery cover 200 is uniform, so that the battery cover 200 can be connected to the housing 100 in a flat manner. Of course, the number of the clamping parts 210 may be one, and the clamping grooves 101 and the clamping parts 210 are matched with each other, so that the battery cover 200 and the housing 100 can be detachably connected and simultaneously be conveniently manufactured. The specific number of the clamping grooves 101 and the clamping portions 210 is not limited in the embodiment of the present application.

For further convenience of user operation, the rotary protrusion 240 may be disposed on an outer end surface of the battery cover 200 away from the bin body 110, so that the user may drive the battery cover 200 to rotate by twisting the rotary protrusion 240, thereby avoiding the situation that the battery cover 200 is inconvenient to disassemble due to the fact that oil stains exist in the hand of the user and the like, which makes it difficult to exert a force when the battery cover 200 is rotated. The rotation protrusion 240 may be provided at the center of the battery cover 200 such that the rotation protrusion 240 can uniformly apply force to the battery cover 200 when being twisted, thereby facilitating the disassembly and assembly of the battery cover 200.

The electrical connector 230 is used for being electrically connected with the second polar end of the battery 500, and may be disposed on an inner end of the battery cover 200 facing the bin body 110, that is, in the case that the battery cover 200 is detachably mounted on the housing 100, the electrical connector 230 is not exposed to the external environment in a space surrounded by the battery cover 200 and the housing 100, so as to avoid poor contact caused by oxidation of water vapor, air and the like in the external environment of the electrical connector 230, which is beneficial to improving the reliability of electrical connection.

In a further technical solution, the elastic conductive element 430 may be disposed at a port of the bin body 110 adjacent to the battery cover 200, so that the distance between the elastic conductive element 430 and the battery cover 200 is closer, and thus the elastic conductive element 430 can be electrically contacted with the electrical connection element 230 without a longer length, which is convenient for realizing the electrical contact between the elastic conductive element 430 and the electrical connection element 230, and is beneficial to saving production materials and reducing cost.

Further, the elastic conductive element 430 may be disposed away from the hooking section 1012, so as to avoid affecting the rotation of the battery cover 200. That is, if the elastic conductive element 430 is disposed on the hooking section 1012, the elastic conductive element 430 is not compressed in a natural state when the battery cover 200 is in the initial position, so that the clamping portion 210 is easily blocked by the elastic conductive element 430 when the battery cover 200 rotates from the initial position to the end position, and the battery cover 200 is difficult to rotate from the initial position to the end position, so that the battery cover 200 cannot be normally mounted on the housing 100, and at the same time, the positions of the elastic conductive element 430 and the electrical connection element 230 are staggered, so that the elastic conductive element 430 cannot be electrically connected with the electrical connection element 230. In summary, the elastic conductive element 430 is disposed away from the hooking section 1012, so that the elastic conductive element 430 can be in normal electrical contact with the electrical connector 230, and the battery cover 200 is prevented from being blocked during the process of mounting to the housing 100.

Of course, the elastic conductive element 430 may be one or more. Under the condition that the elastic conductive elements 430 are multiple, the elastic conductive elements 430 can be uniformly arranged on the shell 100, and when one or more elastic conductive elements 430 fail to realize electrical connection, the rest elastic conductive elements 430 can still work normally, so that the reliability of electrical connection is improved.

In this embodiment, the electrical connector 230 may include an electrode connecting piece 231, a third elastic piece 232 and a cap 233, where the electrode connecting piece 231 and the cap 233 may be respectively fixed on the cover body 220, and central axes of the third elastic piece 232 and the cap 233 may be respectively coincident with the central axis of the cover body 220, that is, the third elastic piece 232 and the cap 233 are disposed in the middle of the cover body 220, so as to be convenient for matching with the position of the second polar end of the battery 500, thereby facilitating electrical connection.

Specifically, the electrode connection piece 231 may be in abutting electrical connection with the elastic conductive member 430, and the electrode connection piece 231 is disposed on an inner side end of the battery cover 200 facing the bin body 110. When the battery cover 200 is mounted on the housing 100, the elastic conductive member 430 is compressed to elastically abut against the electrode connecting piece 231 and electrically contact with the electrode connecting piece 231, and at the same time, the third elastic member 232 is compressed when electrically connected with the second polar end of the battery 500, so that the third elastic member 232 is in surface contact with the second polar end of the battery 500 from point contact, and the contact between the third elastic member 232 and the inside of the third elastic member 232 is tighter after being compressed, thereby shortening the conductive distance and being beneficial to conductivity.

The cap 233 may be electrically connected to the electrode connection pad 231, a first end of the third elastic member 232 may be used to elastically and electrically contact the second polar end of the battery 500, and a second end of the third elastic member 232 may extend into the cap 233 and may be in electrically conductive contact with the cap 233. That is, the electrode connecting piece 231 is electrically connected to the second polar end of the battery 500 through the third elastic member 232 electrically contacted to the cap 233, so that the power panel 410 electrically connected to the cartridge body 110 is electrically connected to the second polar end of the battery 500. The third elastic member 232 is in point contact with the cap 233, and the cap 233 is in surface contact with the electrode connecting piece 231, so that the point contact is converted into the surface contact by the cap 233, the contact area between the connecting members is increased, and the conductive performance is improved, and the reliability of the electrical connection conduction is improved.

In this embodiment, the electronic device may further include a second screw 700, where the power board 410 may be fixedly connected to the bin body 110 through the second screw 700, and the second screw 700 may be electrically connected to the second electrical contact and the bin body 110 respectively, that is, the second screw 700 may not only fixedly connect the power board 410 to the bin body 110, but also electrically connect the power board 410 to the bin body 110. Such a structure, the power panel 410 is fixed to the bin body 110, so that poor contact caused by that the first electric contact part or the second electric contact part cannot always keep normal electric connection due to the movement of the power panel 410 can be avoided, thereby being beneficial to improving the reliability of electric connection, and meanwhile, the power panel 410 can be made to be close to the battery 500 and the bin body 110, thereby facilitating the electric connection of the power panel 410.

More preferably, the number of the second screws 700 may be plural, and the second screws 700 may be uniformly distributed at a position of the power panel 410 near the edge. With this structure, when one or more of the second screws 700 is accidentally removed, the remaining second screws 700 can still fix the power board 410 to the housing 110 and electrically connect the power board 410 and the housing 110 normally, thereby ensuring the stability of the electrical connection.

In a further technical solution, the power panel 410 may further be provided with a second elastic member 420, one end of the second elastic member 420 may be electrically connected to the first electrical contact portion, and the other end of the second elastic member 420 may extend into the battery accommodating space, so as to be in elastic contact with the first polarity end of the battery 500, and further electrically connect the first polarity end of the battery 500 with the power panel 410. Specifically, when the second elastic member 420 is electrically connected to the first polar end of the battery 500, the second elastic member 420 is compressed by force, so that the second elastic member 420 is in contact with the first polar end of the battery 500 from point contact to surface contact, and the contact inside the second elastic member 420 is tighter after the second elastic member 420 is compressed, thereby shortening the conductive distance and facilitating the conduction.

In a more preferred technical solution, the casing 100 may further include a casing body 120, a port of the bin body 110 opposite to the battery cover 200 may be an inner port, the power panel 410 may cover the inner port, the power panel 410 is plate-shaped, and then the power panel 410 is conveniently matched with the inner port, so that the power panel 410 is more easily fixed, and meanwhile, the electrical connection between the bin body 110 and the power panel 410 is facilitated.

In order to improve the waterproof performance of the electronic device, a first sealing member 610 may be disposed between the power panel 410 and the inner side port, so as to seal between the power panel 410 and the end surface of the bin body 110, and prevent water from entering the bin body 110 from the connecting seam between the power panel 410 and the bin body 110. The bin body 110 can be further connected with the shell body 120, and the bin body 110 can be connected with the shell body 120 in a threaded connection or clamping manner, so that the concrete connection manner of the bin body and the shell body is not limited. A second sealing member 620 may be disposed between the bin body 110 and the case body 120, and a third sealing member 630 may be disposed between the battery cover 200 and the case body 120, specifically, when the battery cover 200 is mounted to the case 100, the battery cover 200 is detachably connected to the bin body 110 while the side surface of the battery cover 200 is in contact with the case body 120. The second sealing element 620 and the third sealing element 630 respectively surround the sides of the bin body 110 and the battery cover 200, which are in contact with the shell body 120, so that the circumferential sealing of the bin body 110 and the battery cover 200 is respectively realized, water is prevented from entering the bin body 110 from a connecting gap between the shell body 120 and the bin body 110, and meanwhile, water is prevented from entering the bin body 110 or the battery cover 200 from a connecting gap between the shell body 120 and the battery cover 200, so that the waterproof performance of the bin body 110 and the battery cover 200 can be realized, and the battery cover 200 or the bin body 110 can be prevented from entering water when the electronic equipment falls into water, so that the power supply of the electronic equipment is prevented from malfunctioning, and the application scene of the electronic equipment is facilitated to be enlarged.

In a further technical solution, the electronic device may further include an elastic limiting pad 800, where the elastic limiting pad 800 may be disposed in the battery accommodating space, an elastic expansion direction of the elastic limiting pad 800 may be consistent with an elastic expansion direction of the second elastic member 420, and the elastic limiting pad 800 may be elastically supported between an end surface of the battery 500 facing the inner side port and the bin body 110. That is, in the case where the battery 500 is disposed in the battery receiving space and the battery cover 200 is mounted to the case 100, both ends of the battery 500 are elastically abutted by the second elastic member 420 and the third elastic member 232, respectively, so that the axial movement of the battery 500 is restrained, the battery 500 is prevented from moving substantially in the axial direction, and poor contact between the second elastic member 420 and the third elastic member 232 and the battery 500 is prevented. However, when the failure elastic force of the second elastic member 420 and the third elastic member 232 is insufficient, the battery 500 moves in the axial direction, and the elastic limiting pad 800 can further restrict the axial movement of the battery 500, so as to avoid such a phenomenon, thereby further improving the reliability of the electrical connection.

In the embodiment disclosed herein, the electronic device may further include a locking part 300, one of the case 100 and the battery cover 200 may be movably provided with the locking part 300, and the other one is provided with the locking engagement space 201. Based on this, in one embodiment, the locking part 300 is movably provided to the housing 100, and accordingly, the battery cover 200 is provided with the locking engagement space 201. In another embodiment, the locking part 300 is movably provided to the battery cover 200, and accordingly, the housing 100 is provided with the locking engagement space 201. The specific correspondence relationship between the housing 100 and the battery cover 200 and the locking part 300 and the locking mating space 201 is not limited in the embodiment of the present application.

Specifically, in the case where the battery cover 200 is in the initial position, the locking portion 300 may move out of the locking space 201, so that the battery cover 200 is convenient to be detached from the housing 100, and at this time, the locking portion 300 and the locking space 201 are not aligned, and the positions of the locking portion 300 and the locking space are staggered, so that the locking portion 300 cannot move into the locking space 201, and the battery cover 200 cannot be locked.

With the battery cover 200 in the end position, the battery cover 200 and the housing 100 are engaged with the lock engagement space 201 by the lock portion 300 while being engaged with each other in a limited manner in the rotational direction of the battery cover 200. In this case, the locking part 300 moves into the locking matching space 201, so that the battery cover 200 is constrained by the matching between the locking part 300 and the locking matching space 201 when rotating, so that the battery cover 200 cannot rotate, and the battery cover 200 is locked when in the end position, thereby preventing the battery cover 200 from falling from the housing 100.

In a further technical solution, the locking portion 300 may include a locking body 310 and a first elastic member 320, where the locking body 310 may be slidably disposed on the housing 100 or the battery cover 200, and the first elastic member 320 is connected to the housing 100 or the battery cover 200, and meanwhile, the first elastic member 320 is connected to the locking body 310, and the first elastic member 320 is used to drive the locking body 310 to move into the locking matching space 201, and at this time, the locking body 310 is always located in the locking matching space 201 under the action of the elastic force of the first elastic member 320 without external force interference, so that the locking body 310 is prevented from being affected by gravity of the locking body to slide out of the locking matching space 201, and the battery cover 200 is prevented from rotating after rotating to the end position, thereby being beneficial to better locking the battery cover 200.

Based on this, in the case that the locking part 300 is provided to the housing 100, the locking body 310 and the first elastic member 320 are provided to the housing 100, wherein one end of the first elastic member 320 is connected to the locking body 310 and the other end is connected to the housing 100, and accordingly, the battery cover 200 is provided with the locking engagement space 201. In the case that the locking part 300 is provided to the battery cover 200, the locking body 310 and the first elastic member 320 are provided to the battery cover 200, wherein one end of the first elastic member 320 is connected to the locking body 310 and the other end is connected to the battery cover 200, and accordingly, the housing 100 is provided with the locking engagement space 201.

In a more preferred embodiment, the locking part 300 may further include a first screw 330, the first screw 330 may be coupled to the housing 100 or the battery cover 200, the locking body 310 may be positioned between a nut of the first screw 330 and the housing 100 or the battery cover 200, and the locking body 310 may be further provided with a bar-shaped hole 311, and the bar-shaped hole 311 may be slidably coupled with the first screw 330. That is, the first screw 330 is fixed, the locking body 310 is sleeved on the first screw 330 through the bar hole 311, and the locking body 310 is limited by the nut of the first screw 330 when sliding up and down due to the limited length of the bar hole 311, so that the locking body 310 can slide into or out of the locking mating space 201, and the locking body 310 is connected to the housing 100 or the battery cover 200, so that the left and right movement of the locking body 310 is limited by the housing 100 or the battery cover 200. By limiting the movement of the locking body 310 up and down, left and right, the locking body 310 is prevented from being sprung by the elastic force of the first elastic member 320 when the battery cover 200 is not mounted on the housing 100, so that the battery cover 200 cannot be locked normally due to the missing part is prevented, and meanwhile, the locking body 310 is prevented from moving left and right, so that the battery cover 200 is prevented from rotating slightly when the battery cover 200 is mounted on the housing 100 and is in the end position, and the battery cover 200 is prevented from being locked stably and separated from the housing 100.

As described above, in the case where the first screw 330 is coupled to the housing 100, the locking body 310 is positioned between the nut of the first screw 330 and the housing 100, the bar-shaped hole 311 of the locking body 310 is slidably engaged with the first screw 330, and accordingly, the locking engagement space 201 is provided to the battery cover 200. In the case that the first screw 330 is coupled to the battery cover 200, the locking body 310 is positioned between the nut of the first screw 330 and the battery cover 200, the bar-shaped hole 311 of the locking body 310 is slidably engaged with the first screw 330, and accordingly, the locking engagement space 201 is provided to the housing 100.

In a further technical scheme, the locking portion 300 may further include a surface cover 340, where the surface cover 340 may be fixed on the locking body 310, that is, the locking body 310 may be driven to slide by sliding the surface cover 340, so as to drive the locking body 310 to slide into or out of the locking mating space 201, and the surface cover 340 has a larger contact area with respect to the locking body 310, so that the force required by a user during use can be reduced, thereby facilitating the use of the user and being beneficial to improving the user experience. Meanwhile, the surface cover 340 can be further provided with an anti-slip structure, so that the friction force of the surface cover 340 is increased, the phenomenon of hand slip during use by a user is avoided, and further user experience is improved.

The electronic device disclosed in the embodiments of the present application may be an image acquisition device, such as a thermal infrared imager, and of course, may also be other kinds of non-image devices.

In the embodiments of the present utility model, the different embodiments are mainly described, and as long as the different optimization features of the embodiments are not contradictory, the different optimization features can be combined to form a better embodiment, and in consideration of brevity of line text, the description is omitted here.

The embodiments of the present utility model have been described above with reference to the accompanying drawings, but the present utility model is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present utility model and the scope of the claims, which are to be protected by the present utility model.

Claims (11)

1. An electronic device is characterized by comprising a shell (100), a battery cover (200) and a power panel (410), wherein the shell (100) comprises a bin body (110),

the battery cover (200) is detachably arranged on the shell (100), the battery cover (200) and the bin body (110) form a battery accommodating space to accommodate a battery (500), the bin body (110) is electrically connected with the power panel (410), the power panel (410) is provided with a first electric contact part and a second electric contact part, one of the shell (100) and the battery cover (200) is provided with an elastic conductive part (430), the battery cover (200) is provided with an electric connecting part (230), the elastic conductive part (430) is respectively electrically connected with the electric connecting part (230) and the bin body (110),

the first electrical contact is electrically connected to a first polarity end of the battery (500) with the battery (500) mounted in the battery receiving space; the second electrical contact is electrically connected with the bin (110), and the electrical connector (230) is electrically connected with the second polarity end of the battery (500), so that the second electrical contact is electrically connected with the second polarity end of the battery (500).

2. The electronic device of claim 1, wherein the housing (110) is entirely conductive, the housing (110) being electrically connected to the elastic conductive element (430) and the second electrical contact, respectively,

or the bin body (110) is partially a conductor, and the bin body (110) comprises a conductive part which is respectively and electrically connected with the elastic conductive piece (430) and the second electric contact part.

3. The electronic device of claim 1, wherein the battery cover (200) is rotatably disposed on the housing (100) such that the battery cover (200) rotates between an initial position and a final position, wherein:

the battery cover (200) is detachably connected with the housing (100) in an initial position, and the battery cover (200) is detachable from the housing (100) in a final position;

in the rotation stroke of the battery cover (200) from the initial position to the final position, the elastic conductive piece (430) is always in electrical contact with the electrical connection piece (230) or the bin body (110),

or, the rotation stroke of the battery cover (200) from the initial position to the final position comprises a first rotation stroke and a second rotation stroke, the elastic conductive element (430) is not contacted with the electric connection element (230) under the condition that the battery cover (200) is in the first rotation stroke, the elastic conductive element (430) is electrically contacted with the electric connection element (230) under the condition that the battery cover (200) is in the second rotation stroke, and the electric connection element (230) is provided with a guiding structure between the positions of beginning and ending the electric contact with the elastic conductive element (430).

4. The electronic device according to claim 3, wherein the battery cover (200) is clamped to the housing (100), one of the battery cover (200) and the housing (100) is provided with a clamping portion (210), the other is provided with a clamping groove (101), the clamping groove (101) comprises a vertical inserting section (1011) and a hanging section (1012) which are communicated with each other,

the clamping part (210) rotates to the hanging section (1012) under the condition that the battery cover (200) is in the initial position, and the battery cover (200) is detachably connected with the shell (100) through the hanging cooperation of the clamping part (210) and the hanging section (1012);

when the battery cover (200) is in the end position, the clamping part (210) rotates to the plug-in section (1011), and the clamping part (210) can be removed from the plug-in section (1011) so as to separate the battery cover (200) from the shell (100).

5. The electronic device according to claim 4, wherein the battery cover (200) further comprises a cover body (220), the clamping portion (210) is fixed to the cover body (220), and the electrical connector (230) is disposed on an inner side end of the battery cover (200) facing the bin body (110); the electrical connection (230) is for electrical connection with a second polarity terminal of the battery (500).

6. The electronic device of claim 5, wherein the elastic conductive member (430) is disposed at a port of the housing (110) adjacent to the battery cover (200) and clear the hooking section (1012),

in the case that the battery cover (200) is detachably connected to the housing (100), the elastic conductive member (430) is in interference electrical connection with the electrical connection member (230) and is electrically connected with the cartridge body (110).

7. The electronic device according to claim 6, wherein the electrical connection member (230) includes an electrode connection piece (231), a third elastic member (232), and a cap body (233), the electrode connection piece (231) and the cap body (233) are respectively fixed to the cover body (220), and central axes of the third elastic member (232) and the cap body (233) are respectively coincident with central axes of the cover body (220),

the electrode connecting piece (231) is in abutting electrical connection with the elastic conductive piece (430), the cap body (233) is in electrical connection with the electrode connecting piece (231), the first end portion of the third elastic piece (232) is used for being in elastic electrical contact with the second polarity end of the battery (500), and the second end of the third elastic piece (232) extends into the cap body (233) and is in conductive contact with the cap body (233).

8. The electronic device according to claim 1, further comprising a second screw (700), wherein the power board (410) is fixedly connected to the housing (110) by the second screw (700), and wherein the second screw (700) is electrically connected to the second electrical contact and the housing (110), respectively.

9. An electronic device according to claim 3, further comprising a locking portion (300), one of the housing (100) and the battery cover (200) being movably provided with the locking portion (300) and the other being provided with a locking engagement space (201),

the locking part (300) can move out of the locking matching space (201) under the condition that the battery cover (200) is in an initial position,

when the battery cover (200) is in the end position, the battery cover (200) and the housing (100) are engaged with the locking engagement space (201) by the locking portion (300), and are engaged with each other in a limited manner in the rotation direction of the battery cover (200).

10. The electronic device according to claim 9, wherein the locking portion (300) includes a locking body (310) and a first elastic member (320);

the locking body (310) is slidably arranged on the shell (100) or the battery cover (200), the first elastic piece (320) is connected with the locking body (310), and the first elastic piece (320) is used for driving the locking body (310) to move into the locking matching space (201);

the locking part (300) further comprises a first screw member (330) and a face cover (340), wherein the first screw member (330) is connected to the housing (100) or the battery cover (200); -the locking body (310) is positioned between the nut of the first screw (330) and the housing (100) or the battery cover (200); the surface cover (340) is fixed on the locking body (310), and the surface cover (340) is provided with an anti-slip structure;

the locking body (310) is provided with a strip-shaped hole (311), and the strip-shaped hole (311) is in sliding fit with the first threaded piece (330).

11. The electronic device according to claim 1, wherein the power board (410) is provided with a second elastic member (420), one end of the second elastic member (420) is electrically connected to the first electrical contact portion, and the other end of the second elastic member (420) extends into the battery accommodating space and is used for elastically contacting with the first polar end of the battery (500) to electrically connect the first polar end of the battery (500) with the power board (410).

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