Disclosure of Invention
The invention aims to provide a spectacle case capable of automatically cleaning lenses, which overcomes the problems of unchanged cleaning of spectacles and the like, and is convenient for cleaning the spectacles.
The invention is realized by the following technical scheme.
The invention relates to a spectacle case capable of automatically cleaning lenses, which comprises a spectacle case, wherein a containing cavity with an upward opening is arranged in the spectacle case, a box cover capable of sealing the containing cavity is arranged at the upper side of the spectacle case, two cleaning mechanisms are respectively arranged on the lower end surface of the box cover and the left end surface of the containing cavity, each cleaning mechanism comprises a fixed block, a liquid storage cavity for storing cleaning liquid is arranged in each fixed block, a sliding cavity with one side end wall communicated with the containing cavity is arranged in each fixed block, a lifting sliding block and two sliding springs for connecting the sliding block and the end wall of the sliding cavity far away from the center of the containing cavity are arranged in each sliding block, a pushing cavity with the left end wall and the right end wall penetrating through the left end surface and the right end surface of the sliding block is arranged in each sliding block, a pushing block is connected in each pushing cavity in a, the end face of the pushing block close to the center of the containing cavity is fixedly provided with a support plate, one end of the support plate penetrates through the end wall of the pushing cavity and is positioned in the containing cavity, the end wall of the liquid storage cavity close to the center of the containing cavity is internally provided with a main flow pipeline communicated with the liquid storage cavity, a water pump is arranged in the main flow pipeline, eight ejecting pipelines are also arranged in the fixing block, one end of each ejecting pipeline is communicated with the main flow pipeline, the other end of each ejecting pipeline penetrates through the sliding block and the pushing block and is positioned in the sliding cavity, one end of each ejecting pipeline close to the center of the containing cavity is fixedly provided with an atomizer, a sponge roller for cleaning lenses is arranged between the two support plates, the sponge rollers are rotatably connected with the support plates through rotating shafts, the rotating gears are fixedly connected on the rotating shafts on the left side, and rack blocks, the sliding block is kept away from accomodate the one end fixedly connected with at chamber center and connect the rope, still be equipped with the annular seal chamber of the external space of upper end wall intercommunication in the spectacle case, be equipped with in the annular seal chamber and be used for the locking mechanical system of lid, be equipped with in the lid and be used for control the pressing mechanism that the sliding block goes up and down, through clean mechanism with pressing mechanism's cooperation realizes the cleanness to the spectacle lens, reduces the quantity of cleaning solution.
Furthermore, the locking mechanism comprises an elastic sealing ring fixed in the annular sealing cavity, two spring plates and supporting springs for supporting the spring plates are arranged on the lower side of the elastic sealing ring, an electromagnetic cavity communicated with the annular sealing cavity is arranged in the annular sealing cavity, an electromagnet is arranged in the electromagnetic cavity, a connecting rod with one end penetrating through the electromagnetic cavity and positioned in an external space is fixed on the end surface of the electromagnet far away from the accommodating cavity, a fingerprint switch is fixed on the connecting rod positioned in the external space, a driven cavity communicated with the annular sealing cavity is arranged in the end wall of the annular sealing cavity close to the accommodating cavity, a driven rod and a driven spring connected with the driven rod and the end wall of the driven cavity are arranged in the driven cavity, the lower end of the spring plate is fixedly connected with a rope with the driven rod, the lower end of the rope penetrates through the end wall of the driven cavity, the glasses box is internally provided with an ejection cavity with an upward opening, an ejection block and an ejection spring for supporting the ejection block are arranged in the ejection cavity, and the lower end of the storage cavity at the lower side penetrates through the end wall of the sliding cavity and the lower end wall of the ejection cavity and is fixedly connected with the ejection block.
Furthermore, the pressing mechanism comprises a lifting cavity positioned in the box cover, a lifting plate capable of lifting and two lifting springs for supporting the lifting plate are arranged in the lifting cavity, the upper end of the upper connecting rope penetrates through the upper end wall of the upper sliding cavity and the lower end wall of the lifting cavity and is fixedly connected with the lifting plate, the lower end of the lifting plate is fixedly connected with a lifting block the lower end of which is positioned in the external space, the lower end of the box cover is fixedly connected with an annular block the lower end of which is positioned in the annular sealing cavity, two limiting cavities with left and right end walls communicated with the annular sealing cavity are arranged in the annular block, limiting rods with left and right ends positioned in the annular sealing cavity are connected in the limiting cavities in a sliding manner, the limiting cavity is also internally provided with two limiting blocks for supporting the limiting rod, and the left end and the right end of the upper limiting block are fixedly connected with limiting springs fixedly connected with the end wall of the limiting cavity.
Furthermore, the friction force between the pressing block and the box cover is far greater than the sum of the elastic forces of the lifting spring and the ejecting spring, the elastic force of the ejecting spring is far greater than the elastic force of the sliding spring, the elastic force of the lifting spring is far greater than the elastic force of the sliding spring, the elastic force of the supporting spring is far greater than the elastic force of the driven spring, the elastic force of the limiting spring is smaller than the elastic force of the driven spring, and the repulsive force between the fingerprint switch and the limiting rod is far greater than the elastic force of the driven spring.
The invention has the beneficial effects that: the device simple structure, the simple operation can accomplish the cleanness to the glasses lens automatically, and does not need a large amount of cleaning solutions to accomplish, has reduced the volume quality of spectacle case, and makes the sealed tighter of spectacle case through the elastic sealing circle, prevents that the dust from entering into in the spectacle case, influences the use of glasses, and through locking the protection to the spectacle case, the safety of the glasses in the assurance spectacle case that can be better increases the application range of spectacle case.
Detailed Description
The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
The glasses case capable of automatically cleaning lenses, which is described in conjunction with fig. 1-4, comprises a glasses case 10, a containing cavity 29 with an upward opening is arranged in the glasses case 10, a case cover 28 capable of sealing the containing cavity 29 is arranged on the upper side of the glasses case 10, two cleaning mechanisms 54 are arranged on the lower end surface of the case cover 28 and the left end surface of the containing cavity 29, each cleaning mechanism 54 comprises a fixed block 55, a liquid storage cavity 42 for storing cleaning liquid is arranged in the fixed block 55, a sliding cavity 40 with one side end wall communicated with the containing cavity 29 is arranged in the fixed block 55, a liftable sliding block 39 and two sliding springs 41 connecting the sliding block 39 and the end wall of the sliding cavity 40 far away from the center of the containing cavity 29 are arranged in the sliding cavity 40, a pushing cavity 30 with left and right end walls penetrating through the left and right end surfaces of the sliding block 39 is arranged in the sliding cavity 30, and, the end wall of the pushing cavity 30 far away from the center of the containing cavity 29 is internally provided with an electric guide rail 59 capable of driving the pushing block 38 to move back and forth, the end face of the pushing block 38 close to the center of the containing cavity 29 is fixedly provided with a support plate 37 of which one end penetrates through the end wall of the pushing cavity 30 and is positioned in the containing cavity 29, the end wall of the liquid storage cavity 42 close to the center of the containing cavity 29 is internally provided with a main flow pipeline 44 communicated with the liquid storage cavity 42, the main flow pipeline 44 is internally provided with a water pump 43, the fixing block 55 is internally provided with eight ejection pipelines 31 of which one end is communicated with the main flow pipeline 44 and the other end penetrates through the sliding block 39 and the pushing block 38 and is positioned in the sliding cavity 40, one end of the ejection pipeline 31 close to the center of the containing cavity 29 is fixedly provided with an atomizer 33, a sponge roller 32 for cleaning lenses is arranged between the two support plates 37, left side fixedly connected with running gear 34 on the axis of rotation 35, sliding block 39 is close to the terminal surface of accomodating chamber 29 center be fixed with one end with rack piece 36 that running gear 34 meshing is connected, sliding block 39 is kept away from the one end fixedly connected with of accomodating chamber 29 center is connected rope 21, still be equipped with the annular seal chamber 16 of upper end wall intercommunication external space in the spectacle case 10, be equipped with in the annular seal chamber 16 and be used for the locking the locking mechanical system 53 of lid 28, be equipped with in the lid 28 and be used for control the pressing mechanism 52 that sliding block 39 goes up and down, through clean mechanism 54 with pressing mechanism 52's cooperation realizes the cleanness to spectacle lens, reduces the quantity of cleaning solution.
Beneficially, the locking mechanism 53 includes an elastic sealing ring 14 fixed in the annular sealing cavity 16, two spring plates 13 and a supporting spring 12 supporting the spring plates 13 are arranged on the lower side of the elastic sealing ring 14, an electromagnetic cavity 56 communicating with the annular sealing cavity 16 is arranged in the annular sealing cavity 16, an electromagnet 57 is arranged in the electromagnetic cavity 56, a connecting rod 58 with one end penetrating through the electromagnetic cavity 56 and located in an external space is fixed on an end surface of the electromagnet 57 far from the accommodating cavity 29, a fingerprint switch 15 is fixed on the connecting rod 58 located in the external space, a driven cavity 49 communicating with the annular sealing cavity 16 is arranged in an end wall of the annular sealing cavity 16 close to the accommodating cavity 29, a driven rod 50 and a driven spring 51 connecting the driven rod 50 and an end wall of the driven cavity 49 are arranged in the driven cavity 49, a lower end of the elastic sealing ring 13 is fixedly connected to penetrate through the end wall of the driven cavity 49 and is fixedly connected with the driven rod 50 The lower end of the accommodating cavity 29 at the lower side penetrates through the end wall of the sliding cavity 40 and the lower end wall of the ejection cavity 18 and is fixedly connected with the ejection block 19.
Beneficially, the pressing mechanism 52 includes a lifting cavity 23 located in the box cover 28, a lifting plate 26 capable of lifting and lowering and two lifting springs 25 supporting the lifting plate 26 are arranged in the lifting cavity 23, the upper end of the upper side of the connecting rope 21 penetrates through the upper end wall of the upper side of the sliding cavity 40 and the lower end wall of the lifting cavity 23, and is fixedly connected with the lifting plate 26, the lower end of the lifting plate 26 is fixedly connected with a lifting block 27 of which the lower end is located in the external space, the lower end of the box cover 28 is fixedly connected with a ring block 17 of which the lower end is located in the ring-shaped sealing cavity 16, two limiting cavities 45 of which the left and right end walls are communicated with the ring-shaped sealing cavity 16 are arranged in the ring block 17, limiting rods 46 of which the left and right ends are located in the ring-shaped sealing cavity 16 are slidably connected in the limiting cavities 45, and two limiting blocks, the left end and the right end of the upper limiting block 48 are fixedly connected with limiting springs 47 fixedly connected with the end wall of the limiting cavity 45.
Advantageously, the friction force between the pressing block 22 and the cover 28 is much greater than the sum of the elastic forces of the lifting spring 25 and the ejecting spring 20, the elastic force of the ejecting spring 20 is much greater than the elastic force of the sliding spring 41, the elastic force of the lifting spring 25 is much greater than the elastic force of the sliding spring 41, the elastic force of the supporting spring 12 is much greater than the elastic force of the driven spring 51, the elastic force of the limiting spring 47 is less than the elastic force of the driven spring 51, and the repulsive force between the fingerprint switch 15 and the limiting rod 46 is much greater than the elastic force of the driven spring 51.
In the initial state, the driven spring 51 and the slide spring 41 are in a compressed state;
the box cover 28 is lifted upwards to enable the lower end of the annular block 17 to leave the annular sealing cavity 16, then the eyeglasses are folded and placed into the containing cavity 29, the inner side of the lens is located on the upper end face upper side of the lower fixing block 55, the outer side of the lens is located on the lower end face lower side of the upper fixing block 55, then the lower end of the annular block 17 is manually located in the annular sealing cavity 16, then the box cover 28 is pressed downwards to enable the annular block 17 to descend and enable the elastic sealing ring 14 to be bent, the descending of the annular block 17 drives the descending of the spring plate 13, so that the supporting spring 12 is compressed and the rope 11 is loosened, the driven spring 51 is reset to drive the driven rod 50 to move leftwards, when the annular block 17 descends to enable the limiting cavity 45 and the driven cavity 49 to be located on the same horizontal line, the driven spring 51 moves leftwards to enter the limiting cavity 45, and drives the limiting rod 46 to move, and one limiting, at this point, locking of the ring block 17 is completed;
since the box cover 28 closes the containing cavity 29, so that the upper fixing block 55 is located at the upper side of the lens, when the lens needs to be cleaned, the pressing block 22 is pressed downwards, so that the lifting plate 26 is driven to descend and is compressed with the lifting spring 25, so that the upper connecting rope 21 is loosened, the descending of the lifting plate 26 drives the lifting block 27 to descend, so that the ejecting block 19 is driven to descend and the spring 20 needs to be ejected, so that the lower connecting rope 21 is loosened, both the connecting ropes 21 are loosened, so that the sliding spring 41 is reset, so that the sliding block 39 is ejected, so that the supporting plate 37 and the sponge roller 32 are driven to approach towards the lens of the containing cavity 29, and finally the sponge roller 32 is driven to contact with;
then the water pump 43 works to spray the cleaning liquid in the liquid storage chamber 42 through the main flow pipeline 44 and the spraying pipeline 31 and then through the spraying pipeline 31, and sprayed onto the sponge roller 32, and the electric guide rail 59 works to drive the push block 38 to move back and forth, thereby driving the supporting plate 37 to move back and forth, thereby driving the rotating shaft 35 and the sponge roller 32 to move back and forth, and when the rotating gear 34 moves back and forth along with the rotating shaft 35, due to the limitation of the rack block 36, the rotating gear 34 rolls on the rack block 36, so that the rotating gear 34 drives the rotating shaft 35 to roll with the sponge roller 32, thereby leading the sponge roller 32 to rotate when moving back and forth on the lens, leading the electric guide rail 59 to drive the pushing block 38 to move back and forth, synchronously driving the spraying pipeline 31 to move, so that the liquid sprayed out by the atomizer 33 is always positioned on the sponge roller 32 when the sponge roller 32 moves back and forth;
after cleaning, the pressing block 22 is lifted upwards, so that the lifting spring 25 is reset, the lifting block 27 is reset, the ejection spring 20 is reset to drive the ejection block 19 to ascend, the lower connecting rope 21 is reset, the upper connecting rope 21 is reset due to the ascending of the lifting plate 26, so that the two sliding blocks 39 are reset, the sliding springs 41 are compressed again, the sliding blocks 39 are reset to reset the sponge roller 32, and the sponge roller 32 is far away from the lens;
when the lens needs to be taken out, the electromagnet 57 can be operated through the fingerprint switch 15, so that the electromagnet 57 and the limiting rod 46 are mutually repelled, the limiting rod 46 and the limiting spring 47 are reset, the driven rod 50 leaves the limiting cavity 45, at the moment, the annular block 17 is unlocked, and the box cover 28 can be lifted upwards, so that the glasses can be taken out.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.