Detailed Description
The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
The present application provides input panel assembly and charging panel assembly embodiments. The panel subassembly that charges is used for the electrical apparatus to charge, and the power connecting wire of electrical apparatus inserts the panel subassembly that charges and charges. The input panel assembly is used for assembling input interfaces, generally, a plurality of input interfaces can be installed on the input panel assembly, and different input interfaces are installed in the same input panel assembly so as to be used for connecting and charging various electric appliances with different interfaces.
Referring to fig. 1, fig. 1 is an exploded view of a charging panel assembly according to the present application. The charging panel assembly 30 includes an input panel assembly 10 and an input interface assembly 20. The input panel assembly 10 specifically includes a baffle 100 and a panel body 200, a first groove 210 is formed on a side surface of the panel body 200 close to the baffle 100, the first groove 210 is used for assembling the input interface assembly 20, and when an external power line (not shown) needs to be connected to the charging panel assembly 30, the input interface assembly 20 can be connected from an opening side of the first groove 210. The baffle 100 can be rotatably connected with the panel body 200, so that the baffle 100 can be covered on the first groove 210, or the baffle 100 is far away from the first groove 210.
For a better description of the input interface assembly 20, please refer to fig. 1-3 together. Further, the input interface assembly 20 specifically includes a first input interface 310, a fixing member 320, a screw 330, a second input interface 340, and a switch assembly 350. Fig. 2 and 3 show the input interface assembly 20 in a state of being mounted in the first recess 210. The first groove 210 is disposed on a plurality of ports, which in this embodiment specifically includes a first port 201, a second port 202, and a third port 203. The first port 201, the second port 202 and the third port 203 are disposed in the first groove 210 in a penetrating manner, and communicate with two sides of the groove wall of the first groove 210 in the thickness direction. One end of the first input interface 310 is fixed to the first port 201 and faces the opening of the first groove 210, so that an external power line can be conveniently accessed from the opening of the first groove 210; the other end is fixed to the side of the panel body 200 away from the barrier 100 by a fixing member 320 and a screw 330. Specifically, the first groove 210 is provided with a first screw hole 204, the fixing member 320 is provided with a second screw hole 322, and the screw 330 is inserted into the first screw hole 204 and the second screw hole 322 in sequence from one end of the opening of the first groove 210 and tightened to fix the fixing member 320 to the side of the panel body 200 away from the baffle 100. And a portion of the first input interface 310 is clamped between the fixing member 320 and the panel body 200 by the fixing member so as to be fixed to a side of the panel body 200 away from the barrier 100.
Optionally, the first screw hole 204 may be disposed as close to the first input interface 310 as possible, so as to reduce the distance between the first input interface 310 and the first screw hole 204, and facilitate the fixing member 320 to fix the first input interface 310.
Optionally, the number of the first screw holes 204 is plural, and the number of the second screw holes 322 and the screws 330 corresponding to the first screw holes 204 is also plural, so as to enhance the fixing and positioning of the first input interface 310 and prevent the first input interface from loosening.
In the present embodiment, the first input interface 310 includes an XT30 interface, but may be other interfaces in other embodiments, such as an XT60 and an XT90 interface. The XT30 interface can be used for solar charging of batteries. In the conventional charging panel, since many parts of the panel housing and the internal interface thereof are made of metal, a user often gets an electric shock during use, and the use is unsafe, while in the present embodiment, the fixing member 320 is provided with a grounding pin 321, and the grounding pin 321 extends from the side of the fixing member 320 close to the panel body 200 to the direction far away from the panel body 200 to be grounded. Since the screw 330 is inserted into the panel body 200 and the fixing member 320 in order from one end of the opening of the first groove 210, the current in the panel body 200 may flow into the ground pin 321 of the fixing member 320 along the screw 330, and finally into the ground. When static electricity is generated or electricity is leaked due to improper use of a user, the generated current can be quickly lost from the grounding pin 321, so that the safety of the user is protected.
In this embodiment, the fixing member 320 is matched with the screw 330 to fixedly mount the first input interface 310 in the first port 201 of the first groove 210, and the fixing member 320 is further provided with a grounding pin 321, the grounding pin 321 can ground the leaked current, so as to prevent the user from getting an electric shock, and improve the safety of the charging panel assembly 30.
In this embodiment, the second input interface 340 is installed at the second port 202, and the interface portion of the second input interface 340 faces the opening of the first recess 210, so that the external power line can be conveniently accessed from the opening of the first recess 210. Alternatively, the second input interface 340 may be the three-pin flat interface shown in fig. 1 to 3, or may be other interfaces such as a two-pin flat interface, a three-pin circular interface, and the like.
In the present embodiment, the input interface assembly 20 further includes a switch assembly 350, the switch assembly 350 including a reset switch 352 and a pin 351. The reset switch 352 is installed at the third port 203 and exposed at an open side of the first recess 210 for a user to press. The pin 351 is connected to the reset switch 352 and located on a side of the panel body 200 away from the baffle 100, and the pin 351 may be connected to the first input interface 310 or the second input interface 340. In a normal working state, the reset switch 352 is in a pressed state, and the reset switch 352 is communicated with two ends of the pin 351; when the current in the first input interface 310 or the second input interface 340 is too large, the reset switch 352 automatically bounces, the reset switch 352 is no longer connected to the two ends of the pin 351, and the two ends of the pin 351 are disconnected, so that the first input interface 310 or the second input interface 340 is disconnected, the circuit is protected, the circuit is prevented from being burnt due to too large current, and the safety of the charging panel assembly 30 is further enhanced.
In the prior art, the input interface is assembled on the input panel, and the input interface is exposed on the surface of the input panel and contacts with the outside air, which easily causes the outside impurities, such as dust and water vapor, to enter the input interface, so that the danger of poor contact and even short circuit of the input interface occurs, which not only affects the service life of the circuit, but also seriously harms the user safety. In order to improve the safety of the charging panel assembly 30 and the lifespan of the charging panel assembly 30, the input panel assembly 10 of the charging panel assembly 30 of the present application is provided with a baffle 100 for protecting the input interface assembly 20. With respect to the input panel assembly embodiments, please continue to refer to the following description of the input panel assembly embodiments of the present application.
Referring to fig. 4, fig. 4 is a schematic diagram of an exploded structure of an embodiment of an input panel assembly according to the present application. In the present embodiment, the input panel assembly 10 includes a barrier 100 and a panel body 200. A first groove 210 is formed on one side of the panel body 200 close to the baffle 100, and the first groove 210 is used for assembling an input interface. Such as the input interface assembly 20 shown in fig. 1. When an external power cord needs to be accessed, it can be accessed from the open side of the first recess 210. The baffle 100 can be rotatably connected with the panel body 200, so that the baffle 100 can be covered on the first groove 210, or the baffle 100 is far away from the first groove 210.
Here, the barrier 100 has two sides in its width direction, a first side a of the barrier 100 and a second side b of the barrier 100. The opening of the first groove 210 of the panel body 200 corresponds to the size and shape of the baffle 100, and the baffle 100 can completely cover the opening of the first groove 210 to close the opening of the first groove 210. The first groove 210 also has two sides corresponding to the baffle 100, which are a first side c of the first groove 210 and a second side d of the first groove 210. In order to rotatably couple the barrier 100 with the panel body 200 to open/close the first groove 210, the first side a of the barrier 100 may be a coupling end, and the second side b of the barrier 100 is a free end. The first side a of the baffle 100 is rotatably connected with the first side c of the first groove 210, the first side a of the baffle 100 can rotate around the first side c of the first groove 210, and the second side b of the baffle 100 can be driven to rotate around the second side d of the first groove 210 when the baffle rotates. Of course, in other embodiments, the baffle 100 may be rotatably connected to other sides of the first groove 210.
Specifically, the first side a of the baffle 100 includes a first side i, a second side ii (viewed from a point J in a region B in fig. 4), and a third side iii, the first side i being connected to the second side ii via the third side iii, the first side i being opposite to the second side ii. The first side c of the first groove 210 includes a first side wall c1, a second side wall c2, a third side wall c3, and a bottom wall c4 commonly connected with the above 3 side walls.
As shown in fig. 4, in this embodiment, the first side a of the baffle 100 is a semi-cylinder, the first side i and the second side ii are bottom surfaces of two opposite semi-circles, and the third side iii is an arc surface of the semi-cylinder. In other embodiments, the first side a of the baffle 100 may have other shapes such as a rectangular parallelepiped. The first side wall c1 is opposite to the second side wall c2, and the first side wall c1 is connected to the second side wall c2 through a third side wall c3 or a bottom wall c 4. Furthermore, a first convex column 111 is arranged on the first side surface I, and a second convex column 112 is arranged on the second side surface I. The first convex column 111 protrudes towards the direction far away from the second side surface II, the second convex column 112 protrudes towards the direction far away from the first side surface I, and the protruding directions of the first convex column 111 and the second convex column 112 are opposite. In order to rotatably connect the first side a of the baffle 100 with the first side c of the first groove 210, two opposite first side walls c1 and second side walls c2 of the first side c of the first groove 210 may be provided with post holes corresponding to the first post 111 and the second post 112, respectively. Specifically, the first side wall c1 defines a first pillar hole 211 (shown by a dotted line in fig. 4), the second side wall c2 defines a second pillar hole 212, and the first pillar hole 211 is opposite to the second pillar hole 212. The first column hole 211 is matched with the first convex column 111 in shape and size, the second column hole 212 is matched with the second column hole 212 in shape and size, and when the first side a of the baffle 100 is rotatably connected with the first side c of the first groove 210, the first convex column 111 can be inserted into the first column hole 211 and can rotate in the first column hole 211; the second protruding column 112 can be inserted into the second column hole 212 and can rotate in the second column hole 212, and then the rotation of the first protruding column 111 in the first column hole 211 and the rotation of the second protruding column 112 in the second column hole 212 can be converted into the rotation between the first side a of the baffle 100 and the first side c of the first groove 210, when the baffle 100 rotates between the first side a and the first side c of the first groove 210, the baffle 100 can be covered on the first groove 210, or the baffle 100 is far away from the first groove 210.
Alternatively, the protruding pillars may be disposed on two opposite sidewalls of the first side c of the first groove 210, and the pillar holes are disposed on two opposite lateral surfaces of the first side a of the baffle 100.
In this embodiment, the first side a of the baffle 100 is rotatably connected to the first side c of the first groove 210, and the rotation axis is a portion of the first side a of the baffle 100 located between the first pillar 111 and the second pillar 112. In order to save cost, the rotating shaft is usually provided with a hollow structure, and the rotating shaft is provided with a hollow structure. If the material of the rotating shaft on the first side a of the baffle 100 is a soft and easily deformable material, such as a plastic part, after the plastic part shrinks or expands with heat and contracts with cold, the air pressure of the hollow part is different from the outside, and the first side a of the baffle 100 is easily broken. To solve this problem, a second groove 140 may be opened at the first side a of the baffle 100. The second groove 140 is located at the rotation axis of the first side a of the baffle 100, i.e., between the first boss 111 and the second boss 112, and the second groove 140 may extend from the first boss 111 to the second boss 112. Thus, the second groove 140 may enable the hollow portion of the first side a of the baffle 100 to communicate with the external atmosphere, and keep the hollow portion of the first side a of the baffle 100 to be the same as the external atmosphere, thereby preventing the first side a of the baffle 100 from being broken, improving the durability of the baffle 100, and increasing the service life.
In this embodiment, the baffle 100 is rotatably connected to the panel body 200, the baffle 100 covers the first groove 210, or the baffle 100 is far away from the first groove 210, but the baffle 100 and the panel body 200 are movable in rotation. Therefore, in order to cover the baffle 100 in the first groove 210 or to keep the baffle 100 away from the first groove 210, the panel body 200 is provided with a first limiting portion and a second limiting portion, and the baffle 100 is provided with a third limiting portion and a fourth limiting portion. The first limiting part is matched with the third limiting part, so that the baffle 100 is covered on the first groove 210; the second position-limiting portion is engaged with the fourth position-limiting portion to keep the baffle 100 away from the first groove 210.
In an exemplary embodiment, as shown in fig. 4, the first position-limiting portion includes a first engaging groove 220, the second position-limiting portion includes a second engaging groove 230, the third position-limiting portion includes a first protrusion 120, and the fourth position-limiting portion includes a second protrusion 130 (in a view from a in a region a in fig. 4). The first engaging groove 220 is disposed on a sidewall of the second side d of the first recess 210 (the dotted line represents a perspective view of the first engaging groove 220), the first protrusion 120 is disposed on a fourth side iv of the second side d of the baffle 100, when the baffle 100 is covered on the first recess 210, the fourth side iv of the second side d of the baffle 100 is opposite to the sidewall of the second side d of the first recess 210, and the first protrusion 120 is opposite to the first engaging groove 220 and is engaged with the first engaging groove 220. At this time, the third side surface iii of the first side a of the baffle 100 is opposite to the third side wall c3 of the first side c of the first card slot, the baffle 100 completely covers the opening of the first groove 210, meanwhile, the first protrusion 120 and the first card slot 220 are in interference fit to fix the baffle 100, and the baffle 100 is kept covering the first groove 210.
Alternatively, the number of the first protrusions 120 may be 2 in the figure, or may also be other numbers such as 1, 3, and the like, and the position and the number of the first card slot 220 correspond to those of the first protrusions 120.
Optionally, the baffle 100 may be provided with a fastening position 150 for a user to separate the first protrusion 120 from the first fastening slot 220, or to rotate the baffle 100 away from the panel body 200. The fastening position 150 may be disposed as far away from the first side a of the baffle 100 as possible, which may save more labor, for example, in this embodiment, the fastening position 150 is disposed on the second side b of the baffle 100.
Optionally, in order to reduce the limiting pressure of the first protrusion 120 and the first slot 220, a limiting ring (not shown) may be further disposed at the edge of the first groove 210, the limiting ring is disposed in the opening of the first groove 210 in a surrounding manner, and is slightly smaller than the opening of the first groove 210, so that when the baffle 100 is covered on the opening of the first groove 210, the baffle 100 abuts against the limiting ring, and the first protrusion 120 and the first slot 220 are matched to limit the baffle 100.
The second engaging groove 230 is formed on the bottom wall c4 of the first side c of the first recess 210, and the opening of the second engaging groove 230 faces the baffle 100. The second protrusion 130 is provided on the third side surface iii of the first side a of the barrier 100. At a certain moment in the process that the baffle 100 rotates in the direction away from the panel body 200, the second protrusion 130 is clamped into the second clamping groove 230, so as to fix the baffle 100 and make the baffle 100 away from the first groove 210. At this time, the bottom wall c4 of the first side c of the first groove 210 is opposite to the third side of the first side of the baffle 100, the second protrusion 130 is opposite to the second slot 230 and is clamped into the second slot 230, and the first protrusion 120 is separated from the first slot 220. Therefore, the baffle 100 can be far away from the first groove 210 by using the second protrusion 130 and the second slot 230, and when the input panel assembly 10 needs to be used, the baffle 100 can be rotated in a direction far away from the panel body 200, so that the second protrusion 130 is clamped into the second slot 230, and the baffle 100 is far away from the first groove 210; when the input panel assembly 10 is not needed, the baffle 100 may be rotated toward the panel body 200, so that the first protrusion 120 is clamped into the first clamping groove 220, and the baffle 100 is covered on the first groove 210, thereby preventing dust and impurities from entering the first groove 210.
Optionally, the clamping angle between the second clamping groove 230 and the second protrusion 130 is adjustable, for example, the opening of the second clamping groove 230 is set to face the baffle 100 (when the baffle 100 is covered on the opening of the first groove 210), when the second clamping groove 230 is clamped into the second protrusion 130, the baffle 100 is perpendicular to the panel body 200, and at this time, the baffle 100 rotates by 90 ° relative to the state of covering the first groove 210. If the opening of the second engaging groove 230 is inclined to the baffle 100 (when the baffle 100 is covered on the opening of the first groove 210) and faces the first side a of the baffle 100, when the second engaging groove 230 is blocked in the second protrusion 130, the rotation angle of the baffle 100 relative to the state of covering the first groove 210 is greater than 90 °. According to this principle, the second engaging grooves 230 and the corresponding second protrusions 130 may be respectively provided with a plurality of pairs, each pair of the second engaging grooves 230 and the second protrusions 130 has different engaging angles, so that the inclined angle that the baffle 100 can maintain when opening the opening of the first groove 210 is different, the rotation amplitude of the baffle 100 is different, and the baffle 100 has a plurality of gears.
In other embodiments, the first position-limiting portion and the second position-limiting portion may be protrusions, and the third position-limiting portion and the fourth position-limiting portion may be corresponding slots.
The limiting parts are functionally described, except for the protrusions or the clamping grooves provided by the application, the two limiting parts such as the first limiting part and the third limiting part can be made of magnetic materials and attract each other through magnetism; the first limiting part and the third limiting part can be fixed in a matched mode through friction force between the two damping parts.
In conclusion, the input panel subassembly that this application provided and the panel subassembly that charges can prevent dust and prevent vapour, and protection inner circuit does not receive external pollution, has longer life. The baffle can also be opened and held stationary when needed for use. The panel subassembly that charges has ground pin and reset switch, reduces the user and electrocutes dangerously, has higher security.
In the description of the present application, reference to the description of the terms "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, mechanism, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, mechanisms, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.
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.