Desk capable of wirelessly charging mobile equipment in air
Technical Field
The invention belongs to the technical field of wireless charging, and particularly relates to a table capable of wirelessly charging mobile equipment in an air-separated manner.
Background
Today of scientific and technological development, wireless charging technology is more and more mature, and wireless charging technology gradually enters into our life, but the existing wireless charging device usually needs a single charging transmitting device, and then equipment such as a mobile phone and the like can be wirelessly charged by being placed on the charging transmitting device, and the mode is not only troublesome, but also occupies a lot of space due to the fact that the wireless charger is large in size, and especially when the wireless charger is placed on a desk, the wireless charger not only occupies the space of the desk, but also influences the overall attractiveness.
Disclosure of Invention
The invention provides a desk capable of charging mobile equipment in a wireless space-isolation manner, aiming at overcoming the defects of the prior art.
In order to achieve the purpose, the invention adopts the following technical scheme: a desk capable of wirelessly charging mobile equipment in an air space comprises a desk body, a wireless charging device and a containing mechanism for placing the wireless charging device; the wireless charging device comprises a charging transmitting device and an air-separating receiving device matched with the charging transmitting device, and the air-separating receiving device is connected with equipment to be charged; the accommodating mechanism comprises an accommodating outer shell and an accommodating inner shell, the charging and launching device is arranged in the accommodating outer shell, and the accommodating inner shell is connected with the accommodating outer shell through a sliding assembly; the accommodating inner shell is provided with at least one elastic piece, and the elastic piece is connected with the accommodating outer shell; the accommodating inner shell is provided with a clamping piece used for clamping the accommodating outer shell. The charging and transmitting device is arranged in the desk, so that the space is saved, and the desk is more attractive; meanwhile, the charging and launching device is stored by the containing mechanism, so that the charging and launching device can be conveniently taken out of and put into a desk, and the situations that the charging and launching device is difficult to disassemble and the like when in failure are avoided; through the charging transmitting device and the spaced receiving device, the equipment to be charged and the charging transmitting device can be directly charged without connection, and the use is convenient.
Further, a first barb is arranged on the clamping piece; the accommodating shell is provided with a concave cavity for the first barb to enter, and a second barb matched with the first barb is arranged in the concave cavity; can fix in accomodating the inner shell accomodating the shell through this setting to through being connected between barb and the barb, avoided accomodating the shell and popped out because of fixed unstability in the middle of accomodating the inner shell.
Further, a space is formed between the first barb and the bottom surface of the concave cavity; the clamping piece is provided with an elastic element, and the elastic element is connected with the accommodating inner shell; the end part of the clamping piece is connected with a horizontally movable switch; through this setting, guaranteed that first barb and second barb break away from to the elastic element has guaranteed that first barb can stretch out and draw back, and finally can resume the normal position, and can be convenient for operate through the switch.
Further, the charging and transmitting device is provided with at least one conductive convex part; the containing shell is provided with a groove matched with the convex part; the groove is provided with a conductive conductor, the accommodating inner shell is provided with a contact piece which is in contact with the conductive body, and the contact piece is connected with a power supply.
Further, the groove is located on a side wall of the housing case, and the protrusion is located on a side wall of the charging and transmitting device; through the design, the direct power supply for the charging and transmitting device through the storage shell is realized, and the clamping connection between the charging and transmitting device and the storage shell is also realized.
Furthermore, the sliding assembly comprises a guide rail and a concave part matched with the guide rail, the guide rail is arranged in the containing inner shell, and the pulley is arranged on the containing outer shell; through the device, be convenient for accomodate the shell follow pop out and will accomodate the shell and impel and accomodate the inner shell in the middle of accomodating the inner shell, reduced frictional force, convenient to use.
Further, the convex part is telescopic on the charging and launching device; this convex part has elasticity, lies in when the recess meets toward charging emitter in contract, can be convenient for convex part and recess cooperate to in the card is in the recess, it is more convenient when taking out simultaneously, avoided meeting because of convex part and recess, causing phenomenons such as contact failure.
Furthermore, the table comprises a table top and table legs, and the accommodating mechanism is arranged on the lower surface of the table top; the accommodating mechanism is arranged in the desk top, so that the using space of the whole desk can be well utilized, the original design of the desk cannot be influenced, and the desk is more attractive.
In summary, the invention has the following advantages: the invention realizes the air-insulated charging between the wireless charger base and the charging equipment; meanwhile, the whole charging and launching device is placed in the desk through the accommodating mechanism, so that the occupied space of the charging and launching device is reduced, and the appearance of the desk is more attractive; whole device through accomodate the shell and accomodate mutually supporting of inner shell, makes charging emission device can be swiftly convenient place accomodate the shell in the middle of to do not utilize the wire in the traditional meaning to carry out transmission power, simplified the structure of device, whole dismantlement and the installation charging emission device's process is simple swift, easy operation.
Drawings
FIG. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a transverse cross-sectional view of the present invention.
Fig. 3 is a vertical cross-sectional view of the present invention.
Fig. 4 is a partially enlarged view of the clip of the present invention.
Detailed Description
In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.
As shown in fig. 1 to 4, a table capable of wirelessly charging mobile devices in an air space includes a table body 1, a wireless charging device 2, and a receiving structure 3 for receiving the wireless charging device 2; wherein the table body 1 comprises a table top 11 and table legs 12; the wireless charging device 2 comprises a charging transmitting device 21 and an air-separating receiving device, and the air-separating receiving device is connected with the mobile equipment to be charged, so that the charging transmitting device 21 is matched with the air-separating receiving device to charge the mobile equipment; taking a mobile phone as an example, the space receiving device can be installed on a mobile phone shell, so that the mobile phone can be wirelessly charged in space through the charging and transmitting device 31; the air-isolated receiving device is a receiving coil for wireless charging, the charging transmitting device 31 is a transmitting coil for wireless charging, the specific structures of the receiving coil and the transmitting coil and the principle of mutual matching charging are the prior art, and the chinese patent CN105978071A is disclosed and is not repeated.
Furthermore, the accommodating mechanism 3 is arranged on the lower surface of the tabletop 11, so that the appearance is more attractive; the receiving mechanism 3 comprises a receiving outer shell 31 and a receiving inner shell 32, the receiving outer shell 31 is arranged in the receiving inner shell 32, and two elastic pieces 321 are arranged at one end of the receiving inner shell 32, and the elastic pieces are common springs; one end of the elastic element 321 is fixed in the inner containing shell 32, and the other end is connected with the outer containing shell 31, when the outer containing shell 31 completely enters the inner containing shell 32, the elastic element 321 is in a compressed state; meanwhile, in order to facilitate the receiving outer shell 31 to conveniently enter and exit the receiving inner shell 32, two sets of sliding assemblies 4 are installed at the joint of the receiving outer shell 31 and the receiving inner shell 32, each sliding assembly 4 comprises a guide rail 41 and a concave part 42 matched with the guide rail 41, the guide rails 41 are installed on the upper end and the lower end of the receiving inner shell 32, each guide rail 41 has two inclined surfaces, and the two inclined surfaces are inclined from bottom to top, so that the upper end of each guide rail 41 is thicker than the lower end of the corresponding guide rail 41; in order to match the guide rail 41, the upper and lower ends of the receiving housing 31 are provided with the concave parts 42 matched with the guide rail 41, and the concave parts 42 also have two inclined surfaces which are inclined from top to bottom, so that the guide rail 41 is matched with the concave parts 42, the receiving housing 31 is not separated from the receiving inner housing 32 and is not pulled down, and the receiving housing 31 can move in and out more flexibly.
Specifically, the housing case 31 is provided with a downward-recessed recess, and the size of the recess is the same as the size and shape of the charging and transmitting device 21, so that the charging and transmitting device 21 is just placed on the housing case 31; meanwhile, two grooves 311 are respectively formed on the left and right side walls of the storage housing 31, and a layer of conductive material conductor 312, which may be a metal such as copper, is installed inside the two grooves 311; one end of the conductor 312 penetrates out from the bottom of the groove 311, and has a certain length after penetrating out; a contact 326 having one end contactable with the conductor 312 is fixed to the housing inner case 32, and the other end of the contact 326 is connected to a power supply through a wire; meanwhile, two convex parts 211 matched with the grooves 311 are respectively arranged on two sides of the charging and transmitting device 21, the convex parts 211 are made of conductive materials, and the conductive materials can be metal materials such as copper; the convex part 211 and the concave part 311 are connected to form a passage, so as to provide power for the charging and transmitting device 21; in order to facilitate the detachment and the installation, the protrusion 211 can extend and retract on the charging launcher 21, when the charging launcher 21 is installed in the receiving shell 31, the protrusion 211 can be retracted inwards, and when the connection is completed, the protrusion 211 can be ejected again, so that whether the connection is completed can be accurately sensed.
Further, in order to ensure that the receiver housing 31 is not ejected from the receiver, a catch is provided at each of right and left sides of the opening of the receiver housing 32, an upper end of the catch is connected to a switch 68 which can be pushed right and left, and a first barb 61 is connected to the catch, a recess 36 which can receive the first barb 61 is provided on the receiver housing 31, a second barb 38 which is engaged with the first barb 61 is connected to an upper surface of the recess 36, and after the first barb 61 enters the recess 36, the first barb 61 and a bottom surface of the recess 36 have a space 65, the space 65 is convenient for separating the first barb 61 from the second barb, and a resilient member 69 is provided on a side surface of the catch, the resilient member 69 being a common spring, and one end of the resilient member 69 is connected to the catch, the other end is connected with the receiving inner shell 32; while on the other side of the catch there is a further resilient element 69, which resilient element 69 is in contact with the receiving inner shell 32, so that the two resilient elements 69 ensure that the first barb 61 is in contact with the second barb.
Specifically, when the card member is operated, the switch 68 is pushed leftwards, so that the first barb 61 moves horizontally towards the inside of the concave cavity 36, and the first barb 61 is disconnected from the second barb; at the same time, the receiving housing 31 is sprung up a distance by the elastic member 321, so that the first barb 61 enters into the space 65; the switch 68 is then released and reset, bringing the catch back into position so that the first barb 61 disengages from the recess 36 and the outer receiver housing 31 is fully ejected from the inner receiver housing 32.
It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all 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 invention.