AU2019201745B1

AU2019201745B1 - A shock-resistant eyeglasses box

Info

Publication number: AU2019201745B1
Application number: AU2019201745A
Authority: AU
Inventors: Xiangyi Shuai
Original assignee: Pujiang Yilin Glasses Co Ltd
Current assignee: Pujiang Yilin Glasses Co Ltd
Priority date: 2019-03-05
Filing date: 2019-03-13
Publication date: 2019-05-30
Anticipated expiration: 2039-03-13
Also published as: CN110367668B; CN110367668A

Abstract

The invention discloses a shock-resistant eyeglasses box, including an eyeglasses box 11 that is internally provided with a shock-resistant device 101 and a clamshell device 102 at the top; one side of the shock-resistant device 101 is provided with a transmission device 103; the shock-resistant device 101 comprises a storage cavity 12 set in the eyeglasses box 11, wherein a support plate 14 is set in the lower side of storage cavity 12; clamp plates 21 are arranged around the support plate 14; the clamshell device 102 includes a cover plate 31 set at the upper side of the eyeglasses box 11, wherein a lifting block 33 is arranged in the cover plate 31; the support plate 14, the clamp plates 21 and the lifting block 33 are configured to clamping the eyeglasses box 11 with springs outsides for shock absorption protection.

Description

A SHOCK-RESISTANT EYEGLASSES BOX

TECHNICAL FIELD [0001] The present invention relates to the technical field of daily necessities, in particular to a shock-resistant glasses box.

BACKGROUND OF THE INVENTION [0002] In modern society, there are more and more people wearing glasses. Even young children are wearing glasses. Glasses are fragile, and when not in use, they must be stored in glasses boxes for protection to prevent them from scratches and falls. However, the ordinary glasses boxes only have the function of storage, ans some existing anti-drop glasses boxes only use elastic materials for certain shockproofness, and under severe vibration, the shock absorption protection effect is not so good. A shock-resistant glasses box is therefore urgently needed. When the glasses are stored by the device, the six sides of the glasses are first clamped by elastic cotton to prevent them from shaking inside, and then the vibration is damped by the six-sided spring, which can can effectively protect the glasses.

BRIEF SUMMARY OF THE INVENTION [0003] The aim of the invention is to provide a shock-resistant glasses box, so as to overcome the above disadvantages in the prior art.

[0004] A shock-resistant eyeglasses box of the invention, comprising a an eyeglasses box that is internally provided with a shock-resistant device and a clamshell device at the top; one side of the shock-resistant device is provided with a transmission device; the shock-resistant device comprises a storage cavity set in the eyeglasses box, wherein a support

2019201745 13 Mar 2019 plate is set in the lower side of storage cavity; the support plate is fixed through the lower end to the lower wall of the storage cavity by support springs; the lower wall of the storage cavity, is symmetrically provided with slide cavities which are communicated; each of the slide cavities is set in each of the four directions; the slide cavities which are opposite to each other are not only of the same length, but also in mutual symmetry; slide plates slidably set in the slide cavities, clamp plates which are slideable are set on the top end surface of the slide plates; two ends, which are away from the center of two of the clamp plates, are fixedly connected with a respective one of damping springs; the clamshell device includes a cover plate which is flip-typed set at the upper side of the eyeglasses box, with a lifting cavity that opens downwards; a lifting block that is slideably set in the lifting cavity, wherein compression springs are fixedly connected between the upper end of the lifting block and the upper wall of the lifting cavity; the transmission device includes a flip- type cavity located at one end of the upper end surface of the eyeglasses box; a flip block rotatably set in the fliptype cavity, and the upper end of the flip block is fixedly connected with the lower end surface of the cover plate and the flip block is crenate at lower end; the transmission device is also provided with a pull wire fixed to the upper end surface of the lifting block.

[0005] For further technical proposals, the shock-resistant device includes the storage cavity set in the eyeglasses box and an upward opening communicated with and arranged on the upper side of the storage cavity; on the upper end surface of the support plate is fixedly provided with an elastic support block; the storage cavity is provided, at the lower wall and by array setting, with the slide cavities; each is set in a repspective one of the four directions; two of the slide cavities which are opposite to each other are not only of the same length, but also in mutual symmetry; two groups of the slide plates in different directions are characterized by a long one and a short one and they match with the length of eyeglasses; ends, far away from the center of the upper end surfaces of the slide plates, are fixedly provided with fixing plates, and ends, close to the center, of the fixing plates, are provided with the clamp plates slideably set on the upper ends of the slide plates and the damping springs are fixedly connected between the fixing plates and the clamp plates; the slide plates have guide chutes that open

2019201745 13 Mar 2019 upward in the top end surfaces; the lower ends of the clamp plates fixedly connect to guide sliders extending into the guide chutes, and the end surfaces, close to the center, of the clamp plates are fixedly provided with elastic clamp blocks; in the slide plates, there are threaded cavities with each of openings toward one side; in the threaded cavities, screws are connected by thread; at the center of the lower side of the storage cavity is provided with a bevel gear cavity; ends, which is close to the center, of the screws extend into the bevel gear cavity and are fixedly connected to driven bevel gears; below the four of the driven bevel gears are a drive bevel gear, and the drive bevel gear engages with the four of the driven bevel gears simultaneously and the drive bevel gear connects to the transmission device.

[0006] For further technical proposals, the clamshell device includes the cover plate set at the top of the eyeglasses box and with the lifting cavity that opens downwards; the lifting block is slidably arranged in the lifting cavity, and the compression springs are fixedly connected to the upper end of the lifting block and the upper wall of the lifting cavity and the lifting block is fixed at the lower end surface with an elastic compression block; the lifting cavity, designed with two sides in symmetry, is provided with limit slots; the lifting block, designed with two ends in symmetry, is fixed to limit blocks extending into the limit slots 36; at the top of the lifting cavity is an upper through hole, of which the other side gets close to the transmission device and has a downward opening.

[0007] For further technical proposals, the transmission device includes the flip-type cavity located at one end of the upper end surface of the eyeglasses box; the flip block rotatably set in the flip-type cavity, wherein the upper end of the flip block is fixedly connected with the same end of the lower end surface of the cover plate, and the flip block is arc-type and crenate at its lower end; below the flip-type cavity is a transmission cavity which is communicated with the flip-type cavity; a spur gear rotatably set in the transmission cavity is engaged with the flip block and, and the same shaft side of the spur gear fixedly connects with an upper bevel gear; the upper bevel gear is provided at the lower end with a lower bevel gear engaged hereinwith, and the lower bevel gear, is fixedly connected at the lower end with

2019201745 13 Mar 2019 a winding wheel wound with the pull wire; at one side of the transmission cavity is communicated with a lower through hole with an opening upwards at one end; as to the lower through hole and the upper through hole, their openings are opposite to each other; the pull wire gets through the lower through hole and the upper through hole, and are fixedly connected to the upper end of the lifting block; below the winding wheel is fixedly connected with a transmission shaft; the lower end of the eyeglasses box has a pulley cavity inside; the transmission shaft extends from the lower end into the pulley cavity and is fixedly connected with a drive pulley; in the pulley cavity and below the drive bevel gear, there is a driven pulley which is rotatable; the drive pulley and the driven pulley are in power connection with a transmission belt; a rotation shaft is fixed on the upper end of the driven pulley and the rotation shaft is fixedly connected at the upper end to the axle center of the lower end surface of the drive bevel gear.

[0008] The benefits of the invention: the invention has a simple structure and is easy to operate. When a pair of glasses is put in the device, the device would first properly clamp the eyeglasses at six sides by elastic cotton to prevent it from shaking, and then the springs at six sides are configured to shock absorption, so as to effectively protect the eyeglasses.

BRIEF DESCRIPTION OF THE DRAWINGS [0009] FIG. 1 is the schematic structural diagram showing the internal overall structure of a shock-resistant eyeglasses box in this invention;

[0010] FIG.2 is the schematic diagram along “A-A” direction in FIG.l.

[0011] FIG.3 is an enlarged diagram of “B” in FIG. 1.

DETAILED DESCRIPTION OF THE INVENTION

2019201745 13 Mar 2019 [0012] As indicated in drawings 1-3, in this embodiment of the invention, a shock-resistant eyeglasses box includes an eyeglasses box 11 that is internally provided with a shock-resistant device 101 and a clamshell device 102 at the top; one side of the shock-resistant device 101 is provided with a transmission device 103; the shock-resistant device 101 comprises a storage cavity 12 set in the eyeglasses box 11, wherein a support plate 14 is set in the lower side of storage cavity 12; the support plate 14 is fixed through the lower end to the lower wall of the storage cavity 12 by support springs 15; the lower wall of the storage cavity 12, is symmetrically provided with slide cavities 18 which are communicated; each of the slide cavities 18 is set in each of the four directions; the slide cavities 18 which are opposite to each other are not only of the same length, but also in mutual symmetry; slide plates 19 slidably set in the slide cavities 18, clamp plates 21 which are slideable are set on the top end surface of the slide plates 19; two ends, which are away from the center of two of the clamp plates 21, are fixedly connected with a respective one of the damping springs 22; the clamshell device 102 includes a cover plate 31 which is flip-typed set at the upper side of the eyeglasses box 11, with a lifting cavity 32 that opens downwards; a lifting block 33 that is slideably set in the lifting cavity 32, wherein compression springs 34 are fixedly connected between the upper end of the lifting block 33 and the upper wall of the lifting cavity 32; the transmission device 103 includes a flip- type cavity 39 located at one end of the upper end surface of the eyeglasses box 11; a flip block 40 rotatably set in the flip- type cavity 39, and the upper end of the flip block 40 is fixedly connected with the lower end surface of the cover plate 31 and the flip block 40 is crenate at lower end; the transmission device 103 is also provided with a pull wire 53 fixed to the upper end surface of the lifting block 33.

[0013] For further clarification or exemplary purpose, the shock-resistant device 101 includes the storage cavity 12 set in the eyeglasses box 11 and an upward opening 13 communicated with and arranged on the upper side of the storage cavity 12 ; on the upper end surface of the support plate 14 is fixedly provided with an elastic support block 16; the storage cavity 12 is provided, at the lower wall and by array setting, with the slide cavities 18; each is set in a repspective one of the four directions; two of the slide cavities 18 which are

2019201745 13 Mar 2019 opposite to each other are not only of the same length, but also in mutual symmetry; two groups of the slide plates 19 in different directions are characterized by a long one and a short one and they match with the length of eyeglasses; ends, far away from the center of the upper end surfaces of the slide plates 19, are fixedly provided with fixing plates 20, and ends, close to the center, of the fixing plates 20, are provided with the clamp plates 21 slideably set on the upper ends of the slide plates 19 and the damping springs 22 are fixedly connected between the fixing plates 20 and the clamp plates 21; the slide plates 19 have guide chutes 23 that open upward in the top end surfaces; the lower ends of the clamp plates 21 fixedly connect to guide sliders 24 extending into the guide chutes 23, and the end surfaces, close to the center, of the clamp plates 21 are fixedly provided with elastic clamp blocks 25; in the slide plates 19, there are threaded cavities 26 with each of openings toward one side; in the threaded cavities 26, screws 27 are connected by thread; at the center of the lower side of the storage cavity 12 is provided with a bevel gear cavity 28; ends, which is close to the center, of the screws 27 extend into the bevel gear cavity 28 and are fixedly connected to driven bevel gears 29; below the four of the driven bevel gears 29 are a drive bevel gear 30, and the drive bevel gear 30 engages with the four of the driven bevel gears 29 simultaneously and the drive bevel gear 30 connects to the transmission device 103.

[0014] For further clarification or exemplary purpose, the clamshell device 102 includes the cover plate 31 set at the top of the eyeglasses box 11 and with the lifting cavity 32 that opens downwards; the lifting block 33 is slidably arranged in the lifting cavity 32, and the compression springs 34 are fixedly connected to the upper end of the lifting block 33 and the upper wall of the lifting cavity 32 and the lifting block 33 is fixed at the lower end surface with an elastic compression block 35; the lifting cavity 32, designed with two sides in symmetry, is provided with limit slots 36; the lifting block 33, designed with two ends in symmetry, is fixed to limit blocks 37 extending into the limit slots 36; at the top of the lifting cavity 32 is an upper through hole 38, of which the other side gets close to the transmission device 103 and has an opening looking downwards.

2019201745 13 Mar 2019 [0015] For further clarification or exemplary purpose, the transmission device 103 includes the flip-type cavity 39 located at one end of the upper end surface of the eyeglasses box 11; the flip block 40 rotatably set in the flip-type cavity 39, wherein the upper end of the flip block 40 is fixedly connected with the same end of the lower end surface of the cover plate 31, and the flip block 40 is arc-type and crenate at its lower end; below the flip-type cavity 39 is a transmission cavity 41 which is communicated with the flip-type cavity 39; a spur gear 42 rotatably set in the transmission cavity 41 is engaged with the flip block 40 and, and the same shaft side of the spur gear 42 fixedly connects with an upper bevel gear 43; the upper bevel gear 43 is provided at the lower end with a lower bevel gear 44 engaged hereinwith, and the lower bevel gear 44, is fixedly connected at the lower end with a winding wheel 46 wound with the pull wire 53; at one side of the transmission cavity 41 is communicated with a lower through hole 47 with an opening upwards at one end; as to the lower through hole 47 and the upper through hole 38, their openings are opposite to each other; the pull wire 53 gets through the lower through hole 47 and the upper through hole 38, and are fixedly connected to the upper end of the lifting block 33; below the winding wheel 46 is fixedly connected with a transmission shaft 54; the lower end of the eyeglasses box 11 has a pulley cavity 48 inside; the transmission shaft 54 extends from the lower end into the pulley cavity 48 and is fixedly connected with a drive pulley 49; in the pulley cavity 48 and below the drive bevel gear 30, there is a driven pulley 50 which is rotatable; the drive pulley 49 and the driven pulley 50 are in power connection with a transmission belt 51; a rotation shaft 52 is fixed on the upper end of the driven pulley 50 and the rotation shaft 52 is fixedly connected at the upper end to the axle center of the lower end surface of the drive bevel gear 30.

[0016] In the initial state, the cover plate 31 is opened. At this time, the slide plates 19 are at the position far away from the center and the lifting block 33 contracts in the lifting cavity 32 to the largest extent.

[0017]

Where necessary to protect eyeglasses from shock, the eyeglasses are put on the

2019201745 13 Mar 2019 support plate 14, and the cover plate 31 is flipped and the upper side of the storage cavity 12 is covered. In this process, the cover plate 31 flips, which drives the flip block 40 to rotate; the flip block 40 drives the spur gear 42 to rotate by engaging with the spur gear 42, so that the upper bevel gear 43 is driven to rotate, so that the lower bevel gear 44 is driven to rotate by gear engagement, so that the winding wheel 46 is driven to rotate, so as to release the pull wire 53 . At this time, under the elastic action of the compression springs 34, the lifting block 33 is moved down; the elastic compression block 35 moves into the storage cavity 12 and compresses the upper end of the eyeglasses. Meanwhile, the winding wheel 46 drives the drive pulley 49 for rotation through the transmission shaft 54, which further drives the driven pulley 50 for rotation through the transmission belt 51, so that the drive bevel gear 30 is further driven for rotation by the rotation shaft 52, so that the four of the driven bevel gears 29 are driven for rotation through gear engagement, which further drivens the screws 27 for rotation, so that the slide plates 19 are driven to move towards the center through threaded connection, and the fixing plates 20 and the clamp plates 21 are moved towards the center, and the eyeglasses are clamped wholly for protection via the elastic clamp blocks 25. Now, the support springs 15, the damping springs 22 and the compression springs 34 work together to protect the eyeglasses from shock in six sides.

[0018] The benefits of the invention: the invention has a simple structure and is easy to operate. When a pair of glasses is put in the device, the device would first properly clamp the eyeglasses at six sides by elastic cotton to prevent it from shaking, and then the springs at six sides are configured to shock absorption, so as to effectively protect the eyeglasses.

[0019] It will be apparent to those skilled in the art that various modifications of the above embodiments, which all fall within the scope of protection of the present invention, can be made without departing from the spirit and scope of the invention. The protection of the invention is subject to the claims appended hereto.

Claims

1. A shock-resistant eyeglasses box of the invention, comprising a an eyeglasses box that is internally provided with a shock-resistant device and a clamshell device at the top, wherein one side of the shock-resistant device is provided with a transmission device;

the shock-resistant device comprises a storage cavity set in the eyeglasses box, wherein a support plate is set in the lower side of storage cavity;

the support plate is fixed through the lower end to the lower wall of the storage cavity by support springs, wherein the lower wall of the storage cavity is symmetrically provided with slide cavities which are communicated, and each of the slide cavities is set in each of the four directions;

the slide cavities which are opposite to each other are not only of the same length, but also in mutual symmetry;

slide plates slidably set in the slide cavities;

clamp plates which are slideable set on the top end surface of the slide plates;

wherein two ends, which are away from the center of two of clamp plates, are fixedly connected with a respective one of damping springs;

the clamshell device includes a cover plate which is flip-typed set at the upper side of the

2019201745 15 Apr 2019 eyeglasses box, with a lifting cavity that opens downwards;

a lifting block slideably set in the lifting cavity, wherein compression springs are fixedly connected between the upper end of the lifting block and the upper wall of the lifting cavity;

the transmission device includes a flip- type cavity located at one end of the upper end surface of the eyeglasses box;

a flip block rotatably set in the flip- type cavity, wherein the upper end of the flip block is fixedly connected with the lower end surface of the cover plate and the flip block is crenate at lower end;

the transmission device is also provided with a pull wire fixed to the upper end surface of the lifting block;

whereby when the cover plate is turned over, the flip block is driven to rotate, and then the clamp plates are mobilized to move inwards, so that the eyeglasses are clamped, and meanwhile, the pull wire is loosened, and the lower end of the lifting block extends into the storage cavity to clamp the upper end of the eyeglasses; at the same time, shock absorption protection is carried out through the support springs, the damping springs and the compression springs.

2. The shock-resistant eyeglasses box of the claim 1, wherein the shock-resistant device includes the storage cavity set in the eyeglasses box and an upward opening communicated with and arranged on the upper side of the storage cavity;

2019201745 15 Apr 2019 on the upper end surface of the support plate is fixedly provided with an elastic support block;

the storage cavity is provided, at the lower wall and by array setting, with the slide cavities, and each is set in a repspective one of the four directions;

two of the slide cavities which are opposite to each other are not only of the same length, but also in mutual symmetry;

two groups of the slide plates in different directions are characterized by a long one and a short one and they match with the length of eyeglasses;

ends, far away from the center of the upper end surfaces of the slide plates, are fixedly provided with fixing plates, wherein ends, close to the center, of the fixing plates, are provided with the clamp plates slideably set on the upper ends of the slide plates, and the damping springs are fixedly connected between the fixing plates and the clamp plates;

the slide plates have guide chutes that open upward in the top end surfaces;

the lower ends of the clamp plates fixedly connect to guide sliders extending into the guide chutes, and the end surfaces, close to the center, of the clamp plates are fixedly provided with elastic clamp blocks;

in the slide plates, there are threaded cavities with each of openings toward one side;

in the threaded cavities, screws are connected by thread;

at the center of the lower side of the storage cavity is provided with a bevel gear cavity;

2019201745 15 Apr 2019 ends, which is close to the center, of the screws extend into the bevel gear cavity and are fixedly connected to driven bevel gears;

below the four of the driven bevel gears are a drive bevel gear, and the drive bevel gear engages with the four of the driven bevel gears simultaneously and the drive bevel gear connects to the transmission device;

whereby the eyeglasses is placed on the elastic support block and clamped through the clamp plates, and elastic protection is carried out through the elastic support block and the elastic clamp blocks, and the vibration is reduced through the support springs and the damping springs.

3. The shock-resistant eyeglasses box of the claim 1, wherein the clamshell device includes the cover plate set at the top of the eyeglasses box and with the lifting cavity that opens downwards;

the lifting block is slidably arranged in the lifting cavity, and the compression springs are fixedly connected to the upper end of the lifting block and the upper wall of the lifting cavity, and the lifting block is fixed at the lower end surface with an elastic compression block;

wherein the lifting cavity, designed with two sides in symmetry, is provided with limit slots;

the lifting block, designed with two ends in symmetry, is fixed to limit blocks extending into the limit slots 36;

at the top of the lifting cavity is an upper through hole, of which the other side gets close to the transmission device and has a downward opening;

whereby the lifting block is descended, and the elastic compression block extends into the

2019201745 15 Apr 2019 storage cavity to clamp and protect the upper end of the eyeglasses, and at the same time shock is reduced through the compression springs.

4. The shock-resistant eyeglasses box of the claim 1, wherein the transmission device includes the flip-type cavity located at one end of the upper end surface of the eyeglasses box;

the flip block is rotatably set in the flip-type cavity, wherein the upper end of the flip block is fixedly connected with the same end of the lower end surface of the cover plate, and the flip block is arc-type and crenate at its lower end;

below the flip-type cavity is a transmission cavity which is communicated with the flip-type cavity;

a spur gear is rotatably set in the transmission cavity is engaged with the flip block and, and the same shaft side of the spur gear fixedly connects with an upper bevel gear;

the upper bevel gear is provided at the lower end with a lower bevel gear engaged hereinwith, and the lower bevel gear, is fixedly connected at the lower end with a winding wheel wound with the pull wire;

at one side of the transmission cavity is communicated with a lower through hole with an opening upwards at one end;

as to the lower through hole and the upper through hole, their openings are opposite to each other;

the pull wire gets through the lower through hole and the upper through hole, and are fixedly connected to the upper end of the lifting block;

2019201745 15 Apr 2019 below the winding wheel is fixedly connected with a transmission shaft;

the lower end of the eyeglasses box has a pulley cavity inside;

the transmission shaft extends from the lower end into the pulley cavity and is fixedly connected with a drive pulley;

in the pulley cavity and below the drive bevel gear, there is a driven pulley which is rotatable;

the drive pulley and the driven pulley are in power connection with a transmission belt;

a rotation shaft is fixed on the upper end of the driven pulley and the rotation shaft is fixedly connected at the upper end to the axle center of the lower end surface of the drive bevel gear;

whereby the flip block is turned over and then is transmitted through the tooth part of the flip block, so that the pull wire is loosened, so that the pulleys transmit to drive the shock-resistant device to act.