Among the prior art, the fixture of on-vehicle wireless support that charges mainly includes arm lock and the supporting part of two relative settings, through putting the cell-phone on the supporting part, can open actuating mechanism, and drive mechanism drives two arm lock and removes in opposite directions and finally carries out the centre gripping to the cell-phone on the supporting part. In patent CN209330193U, the output end of the transmission device is respectively and fixedly connected to the first clamping arm and the second clamping arm, so as to drive the first clamping arm and the second clamping arm to move close to each other to clamp the mobile phone. However, this kind of structure relies on the gravity-feed tank of cell-phone to respond to and opens actuating mechanism, when putting into other objects on the supporting part, also can cause first arm lock and second arm lock to remove in opposite directions, leads to the maloperation to the object that the mistake was pressed from both sides can cause arm lock and wireless charging module surface scraping or even damage. In order to solve the problem, the patent CN208789607U is provided with a metal touch pad, a metal detection electromagnetic induction circuit and a wireless charging circuit, and when the mobile phone is placed in the mobile phone clamp device and an electromagnetic induction mobile phone feedback signal transmitted by the metal detection electromagnetic induction circuit and the wireless charging circuit is sent to the main control chip, the main control chip controls the motor to drive the clamp device to clamp the mobile phone. Although the problem of mistake clamp has been solved to this patent, control circuit is complicated, the cost is high to still there is arm lock, the easy scraping wearing and tearing and the not aesthetic problem that leads to of wireless charging module exposure.
Therefore, the utility model aims at providing an on-vehicle wireless support that charges, fundamentally solves arm lock, the wireless module that charges and exposes the problem of produced easy scraping wearing and tearing.
Specifically, this on-vehicle wireless support that charges includes casing and turns over board, turns over board and casing hinged joint. The hinge connection refers to a mechanical structure that two objects can rotate relatively through a hinge. Preferably, the first hinge is in the form of a rotating shaft, the rotating shaft is fixedly mounted on the turning plate, and two ends of the rotating shaft are movably inserted into the inner wall of the shell, so that the turning plate can rotate around the central axis of the first hinge along with the first hinge, and then the turning plate is turned over on the shell to open or close the shell.
When the turning plate is closed on the shell, the turning plate and the shell jointly form an accommodating cavity. Be provided with the standing groove on the casing, the standing groove is used for placing the cell-phone, and the standing groove both can set up and hold the intracavity, also can set up and hold the chamber outside, and preferably, it sets up in the outside that holds the chamber to hold the chamber. The containing cavity is also internally provided with a wireless charging module, the wireless charging module is the prior art, and can adopt the wireless charging module disclosed in CN209330193U or CN208789607U or can adopt the wireless charging module sold in the market. The connecting wire of wireless charging module is connected with vehicle power supply in order to supply power, and then carries out wireless charging to the cell-phone of putting into the standing groove.
The wireless module of charging passes through the second hinge and turns over the board and be connected, and the structure of second hinge is similar with first hinge, for example, the form that the second hinge adopted the pivot, and pivot fixed mounting is on the frame of wireless module or the wireless module of charging, turns over the bottom of board be provided with pivot assorted bearing for wireless module of charging can be for turning over the board rotation.
When not using, turn over the board lid and fit on the casing, wireless charging module is located the casing below, turns over board, wireless charging module and all is on a parallel with the horizontal plane, and on-vehicle wireless charging support is in the closed condition this moment. When needing to charge, turn over the board at first, turn over the board and open the back around the casing rotation, around turning over the rotatory wireless module that charges of board for wireless module, turn over board, casing and constitute triangle bearing structure, wireless module that charges is as the position that directly supports with the cell-phone, opens the on-vehicle wireless support that charges of back completely and is in the state of opening. Then put into the standing groove with the cell-phone, the induction position that charges of cell-phone and wireless charging module group to it, wireless charging module carries out wireless charging to the cell-phone at the in-process that supports the cell-phone.
Through the arrangement, the turnover plate covers the shell in a closed state, and the whole wireless charging support is of a box-shaped structure, so that the wireless charging support is concise and attractive; through setting up parts such as wireless charging module in the intracavity that holds of casing, can play fine guard action to the core component, avoid wireless charging module scraping wearing and tearing to, even have the object to put into opening that the standing groove can not trigger the board that turns over yet, need not to set up complicated detection, judgement, control mechanism, solved the problem that the mistake pressed from both sides from the root.
As a preferred embodiment of the utility model, the side of wireless module of charging is provided with joint portion, be provided with the draw-in groove in the joint portion, be provided with the pothook in the casing, the size phase-match of pothook and draw-in groove, be provided with the third spring on the pothook, the third spring is compression spring. In order to be fixed in the casing in the board joint that will turn over under the closure state, be provided with the pothook in the inside of casing to be provided with joint portion in the side of wireless charging module, seted up the draw-in groove in the joint portion. The size phase-match of pothook and draw-in groove makes under the closed condition, the pothook can be in the draw-in groove of joint under the effect of third spring, keeps wireless charging module, turns over the board and is fixed in on the casing parallelly to each other. When the wireless charging module needs to be opened, the spring force of the third spring is overcome to push the clamping hook to move, so that the clamping hook can be moved out of the clamping groove, and then the wireless charging module and the turnover plate are turned over to be switched to an opening state.
In some embodiments, the top surface of the hook is an inclined surface, and the bottom surface of the clamping portion is an inclined surface, so that when the bottom surface of the clamping portion is in contact with the top surface of the hook when the clamping portion is switched to the closed state, the clamping portion can more easily push the hook to move towards the direction of the third spring, and when the hook is located in the clamping groove, the hook is tightly connected with the clamping groove under the action force of the third spring.
Furthermore, torsion springs are arranged at the first hinge and the second hinge. The torsional spring is prior art, through setting up the torsional spring in first hinge department and second hinge department for under no exogenic action, turn over the board and can upwards overturn around the casing, wireless charging module can be around turning over the direction upset of board orientation standing groove, finally forms triangular supports structure.
Preferably, still be provided with the spout on the casing, be provided with the slider on the activity end that the wireless module of charging is kept away from second hinge department. When switching to the open mode by the closure state, the slider that is arranged in the spout can play the guide effect, and the stability and the reliability that the state switched are improved to the removal orbit of the movable end of guide wireless charging module.
As another preferred embodiment of the utility model, be provided with the transmission slide in the casing, be provided with the recess on the transmission slide, be provided with the push surface in the recess, be provided with the button on the casing, the below of button is provided with the impeller that is located the casing inside, the bottom and the push surface phase-match of impeller, the transmission slide can remove towards the pothook under the promotion of impeller. The principle of the mechanism is as follows: when the wireless charging module and the turning plate are turned over under the action of the torsion spring, the vehicle-mounted wireless charging support is switched from the closed state to the open state. Through above-mentioned drive mechanism, even have other objects except that the cell-phone put into the standing groove, can not trigger the state transition of support yet, fundamentally has avoided the maloperation, simultaneously, only need press down the button, can drive the unblock that the transmission slide removed and finally realized draw-in groove and pothook, and is easy and simple to handle, has improved user experience effectively.
Furthermore, a first spring is arranged below the key, and the first spring is a compression spring. After the external force above the key is removed, the key can be quickly reset under the action force of the first spring, so that the user can use the key for the next time.
As a further preferred embodiment of the present invention, be provided with the through-hole on the transmission slide, be provided with spacing hole on the through-hole, be provided with the gravity button in the through-hole, be provided with the second spring between the bottom surface of gravity button and the bottom surface of casing, the second spring is compression spring, and during the top surface activity of gravity button runs through the casing and extends to the standing groove of casing, the side of gravity button was provided with the limiting plate that is located transmission slide below, the size of limiting plate and the size phase-match in spacing hole, the position in spacing hole is configured as, after transmission slide removed one section distance towards the pothook, the projection of limiting plate at the horizontal plane covers the projection of limiting plate at the horizontal plane.
The gravity button can only move in the vertical direction. And in a closed state or a clamping state, the limiting plate of the gravity key is always positioned below the transmission sliding plate. When switching to the open mode by the closure state, the transmission slide removes and makes pothook and draw-in groove unblock towards the pothook direction under the impetus of the impeller of button, later the transmission slide continues to remove, treat when spacing hole removes limiting plate department, the vacancy in spacing hole has eliminated the transmission slide spacing to the gravity button, the gravity button is vertical rebound under the effect of second spring, the limiting plate removes the joint to spacing downthehole, the transmission slide stops moving, with the pothook stop movement of transmission slide butt, turn over the board, wireless charging module props up under the effect of torsional spring, on-vehicle wireless charging support maintains the open mode. Under the state of opening, the gravity button is upwards protruding and be arranged in the standing groove, treats that the cell-phone puts into the standing groove after, the gravity button is pressed down to the gravity of cell-phone, and the limiting plate of gravity button is located below the limiting plate again, loses behind the clamping effect, pothook, transmission slide no longer keep relatively fixed under the effect of third spring.
Further, a sliding groove is formed in the placing groove, a clamping jaw is arranged in the sliding groove, and the clamping jaw can move towards or back to the turning plate along the sliding groove. The jack catch can form better centre gripping to the cell-phone in the standing groove, ensures that the cell-phone can not drop from the standing groove when using.
Further, a fourth spring is arranged on the jaw, and the jaw moves towards the turnover plate under the action force of the fourth spring. The fourth spring that sets up on the jack catch can promote the jack catch and move towards the direction that turns over the board also promptly cell-phone, and then forms more stable, firm centre gripping to the cell-phone. When the mobile phone is placed, the claw needs to be pushed in the opposite direction against the elastic force of the fourth spring to ensure that enough space is reserved in the placing groove for placing the mobile phone, and then the acting force is removed, and the claw is tightly contacted with the surface of the mobile phone under the action of the fourth spring.
As the utility model discloses a still a preferred embodiment, the bottom of jack catch is provided with the movable plate, the movable plate is located the inside of casing, is provided with first round pin axle on the movable plate, be provided with the second round pin axle on the transmission slide, still be provided with the third round pin axle on the bottom surface of casing, still include the connecting rod, be provided with first pinhole, second pinhole and third pinhole on the connecting rod, first pinhole, second pinhole and third pinhole cover in proper order and are located first round pin axle, second round pin axle and third round pin epaxially.
The principle of the mechanism is as follows: when switching to the open mode by the closed condition, the transmission slide that removes to the pothook direction drives the jack catch through the connecting rod and removes towards the opposite direction at the in-process that removes, and the effort that the fourth spring was overcome to the jack catch removes promptly for the jack catch is kept away from wireless charging module, and then makes and produces sufficient space in the standing groove in order to put into the cell-phone. When the opening state is reached, the limiting plate is limited in the limiting hole, so that the transmission sliding plate, the clamping hook and the clamping jaw are relatively fixed. After the user puts into the cell-phone in the standing groove, gravity button moves down, loses spacing jack catch and removes and with cell-phone surface in close contact with towards the cell-phone under the effort of fourth spring, and the jack catch passes through the connecting rod simultaneously and drives the transmission slide and reset fast, and the pothook also resets fast to the position under the closure state after losing the butt of transmission slide. When the mobile phone needs to be taken out of the placing groove, the press key is pressed down again, the transmission sliding plate pushes the clamping hook to move on the one hand, on the other hand, the clamping jaw is driven by the connecting rod to overcome the fourth spring to move, the pressure applied to the mobile phone by the clamping jaw is removed, after the mobile phone is moved to the limiting plate and the limiting hole to be aligned, the gravity press key protrudes into the placing groove under the acting force of the second spring, the mobile phone losing the clamping jaw is slightly bounced upwards, and the mobile phone can be taken.
Through the arrangement of the connecting rod mechanism, when the mobile phone is switched from the closed state to the open state, a user can unlock the turning plate and the wireless control module by pressing the key, and can control the movement of the clamping jaw to form a larger space for placing the mobile phone into the placing groove; after the mobile phone is placed in the clamping device, the mobile phone can release the limit of the transmission sliding plate and the clamping jaws by pressing down the gravity button, and the clamping jaws can tightly clamp the mobile phone, so that the stability and the safety of the mobile phone in a clamping state are ensured; when the mobile phone needs to be taken out, the clamping jaws can be controlled to be away from the mobile phone again by pressing the key again, and the gravity key can bounce the mobile phone so that a user can take out the mobile phone conveniently. Therefore, the user can quickly and easily put in, clamp and take out the mobile phone through the keys, and the user experience is further improved.
Furthermore, a buffer piece is arranged on the surface, facing the turning plate, of the clamping jaw. In order to protect the surfaces of the clamping jaws from scraping and wearing the surfaces of the mobile phone, the surfaces of the clamping jaws are provided with buffer parts. Preferably, the buffer member is made of rubber, and further preferably, the buffer member is made of silicone rubber or nitrile rubber.
Compared with the prior art, the utility model, following advantage and beneficial effect have:
1. the utility model is closed, the turning plate covers the shell, and the whole wireless charging bracket is of a box-shaped structure, is simple and beautiful; the components such as the wireless charging module and the like are arranged in the accommodating cavity of the shell, so that a good protection effect can be achieved on the core components, the wireless charging module is prevented from being scraped and abraded, the opening of the turning plate cannot be triggered even if an object is placed in the placing groove, a complex detection, judgment and control mechanism is not required to be arranged, and the problem of mistaken clamping is fundamentally solved;
2. the utility model, through the design of the clamping hook and the clamping groove, the turnover plate is clamped and fixed on the shell in a closed state, and when the shell needs to be opened, the spring force of the third spring is overcome to push the clamping hook to move, so that the clamping hook can be moved out of the clamping groove, and the wireless charging module and the turnover plate are turned over and switched to an opened state;
3. the utility model discloses a set up transmission parts such as button, transmission slide, impeller, even there are other objects except that the cell-phone to put into the standing groove, can not trigger the state transition of support yet, fundamentally has avoided the maloperation, simultaneously, only need press the button, can drive the transmission slide and move and finally realize the unblock of draw-in groove and pothook, easy and simple to handle, improved user experience effectively;
4. the utility model discloses a set up parts such as gravity button, the second spring, the limiting plate, spacing hole, make when switching to the open mode by the closed state, the transmission slide moves towards the pothook direction under the pushing action of the impeller of button and makes pothook and draw-in groove unblock, later the transmission slide continues to move, when the spacing hole moves to limiting plate department, the vacancy of spacing hole has eliminated the spacing of transmission slide to the gravity button, the gravity button moves vertically upwards under the effect of second spring, the limiting plate moves to joint in the spacing hole, the transmission slide stops moving, pothook with the transmission slide butt stops moving, turn over the board, the wireless charging module props up under the effect of torsional spring, the on-vehicle wireless charging support maintains the open mode; when the mobile phone is in an opened state, the gravity button protrudes upwards and is positioned in the placing groove, after the mobile phone is placed in the placing groove, the gravity button is pressed down by the gravity of the mobile phone, the limiting plate of the gravity button is positioned below the limiting plate again, and after the clamping action is lost, the clamping hook and the transmission sliding plate are not kept relatively fixed under the action of the third spring any more;
5. by arranging the jack catch and the connecting rod, when the mobile phone is switched from the closed state to the open state, a user can not only unlock the turning plate and the wireless control module by pressing the key, but also control the movement of the jack catch, thereby forming a larger space for placing the mobile phone into the placing groove; after the mobile phone is placed in the clamping device, the mobile phone can release the limit of the transmission sliding plate and the clamping jaws by pressing down the gravity button, and the clamping jaws can tightly clamp the mobile phone, so that the stability and the safety of the mobile phone in a clamping state are ensured; when the mobile phone needs to be taken out, the clamping jaws can be controlled to be away from the mobile phone again by pressing the key again, and the gravity key can bounce the mobile phone so that a user can take out the mobile phone conveniently; therefore, the user can quickly and easily put in, clamp and take out the mobile phone through the keys, and the user experience is further improved.
Example 4:
as shown in fig. 2 to 8, a sliding groove is arranged in the placing groove 4, a claw 15 is arranged in the sliding groove, and the claw 15 can move towards or away from the turning plate 1 along the sliding groove; a fourth spring 24 is arranged on the jaw 15, and the jaw 15 moves towards the turning plate 1 under the action force of the fourth spring 24; the bottom of jack catch 15 is provided with movable plate 16, movable plate 16 is located the inside of casing 2, is provided with first round pin axle 17 on the movable plate 16, be provided with second round pin axle 18 on the transmission slide 6, still be provided with third round pin axle 19 on the bottom surface of casing 2, still include connecting rod 20, be provided with first pinhole, second pinhole and third pinhole on the connecting rod 20, first round pin axle 17, second round pin axle 18 and third round pin axle 19 are located to first pinhole, second pinhole and third pinhole cover in proper order.
In some embodiments, a buffer is provided on the side of the catch 15 facing the flap 1.
The principle of the mechanism is as follows: as shown in fig. 4, when the mobile phone is switched from the closed state to the open state, the transmission sliding plate moving towards the direction of the hook drives the jaw to move towards the opposite direction through the connecting rod in the moving process, that is, the jaw moves against the acting force of the fourth spring, so that the jaw is far away from the wireless charging module, and further, a sufficient space is generated in the placing groove to place the mobile phone. When the opening state is reached, the limiting plate is limited in the limiting hole, so that the transmission sliding plate, the clamping hook and the clamping jaw are relatively fixed. After the user puts into the cell-phone in the standing groove, gravity button moves down, loses spacing jack catch and removes and with cell-phone surface in close contact with towards the cell-phone under the effort of fourth spring, and the jack catch passes through the connecting rod simultaneously and drives the transmission slide and reset fast, and the pothook also resets fast to the position under the closure state after losing the butt of transmission slide. When the mobile phone needs to be taken out of the placing groove, the press key is pressed down again, the transmission sliding plate pushes the clamping hook to move on the one hand, on the other hand, the clamping jaw is driven by the connecting rod to overcome the fourth spring to move, the pressure applied to the mobile phone by the clamping jaw is removed, after the mobile phone is moved to the limiting plate and the limiting hole to be aligned, the gravity press key protrudes into the placing groove under the acting force of the second spring, the mobile phone losing the clamping jaw is slightly bounced upwards, and the mobile phone can be taken.
Through the arrangement of the connecting rod mechanism, when the mobile phone is switched from the closed state to the open state, a user can unlock the turning plate and the wireless control module by pressing the key, and can control the movement of the clamping jaw to form a larger space for placing the mobile phone into the placing groove; after the mobile phone is placed in the clamping device, the mobile phone can release the limit of the transmission sliding plate and the clamping jaws by pressing down the gravity button, and the clamping jaws can tightly clamp the mobile phone, so that the stability and the safety of the mobile phone in a clamping state are ensured; when the mobile phone needs to be taken out, the clamping jaws can be controlled to be away from the mobile phone again by pressing the key again, and the gravity key can bounce the mobile phone so that a user can take out the mobile phone conveniently. Therefore, the user can quickly and easily put in, clamp and take out the mobile phone through the keys, and the user experience is further improved
As used herein, "first," "second," "third," "fourth," etc. (e.g., first spring, second spring, third spring, fourth spring, etc.) merely distinguish between corresponding components for clarity of description and are not intended to limit any order or to emphasize importance, etc. Further, the term "connected" used herein may be either directly connected or indirectly connected via other components without being particularly described.
The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.