CN112244458A - Storage boxes and storage box components - Google Patents

Abstract

The present disclosure provides a storage box and a storage box assembly. The storage box comprises a first shell, a first magnetic part, a second shell, a second magnetic part and a flexible connecting part; the first shell comprises a first main body part and a first flange, the first main body part is provided with a first groove, and the first flange is arranged around the first groove; the first magnetic part is arranged on the first flange; the second shell comprises a second main body part and a second flange, the second main body part is provided with a second groove, and the second flange is arranged around the second groove; the second magnetic part is arranged on the second flange; the flexible connecting piece is rotatably connected with the first shell and the second shell, the flexible connecting piece enables the first shell and the second shell to rotate until the first groove is right opposite to the second groove, the first shell and the second shell are attracted through the first magnetic piece and the second magnetic piece, and the first groove and the second groove jointly form an accommodating space. Above-mentioned scheme can solve the receiver and be difficult to closed problem.

Description

Receiver and receiver subassembly

Technical Field

The utility model relates to a wearable smart machine technical field especially relates to a receiver and receiver subassembly.

Background

When the intelligent glasses are carried about, the intelligent glasses are easy to collide, so that the electronic equipment can be damaged. In order to prevent that intelligent glasses from damaging, intelligent glasses often adorn in the containing box to prevent that intelligent glasses from taking place to collide with.

In the correlation technique, the receiver includes box body and lid, and the box body adopts the metal axle to articulate with the lid, and the lid can rotate box body relatively. The box body and the cover body can be enclosed to form an accommodating cavity. The box body and the cover body are provided with zippers. When the contents such as intelligent glasses are put into the holding cavity, the zipper can be closed, so that the storage box is closed.

However, in the process of pulling the slide fastener, the fastener elements of the slide fastener are easily broken due to long-term use, so that the slider is easily jammed, or the slider is easily separated from the fastener elements, so that the storage box is difficult to close.

Disclosure of Invention

The present disclosure provides a storage box and a storage box assembly.

The present disclosure provides a storage box. The receiver includes: the first shell comprises a first main body part and a first flange, the first main body part is provided with a first groove, and the first flange surrounds the first groove; the first magnetic part is arranged on the first flange; the second shell comprises a second main body part and a second flange, the second main body part is provided with a second groove, and the second flange surrounds the second groove; the second magnetic part is arranged on the second flange; the flexible connecting piece is used for enabling the first shell and the second shell to rotate to the first groove through the flexible connecting piece and be right opposite to the second groove, the first shell and the second shell are attracted through the first magnetic piece and the second magnetic piece, and the first groove and the second groove form a closed containing space together.

The present disclosure also provides a storage box assembly. The receiver subassembly includes above-mentioned receiver.

It should be understood that the statements in this section do not necessarily identify key or critical features of the embodiments of the present disclosure, nor do they limit the scope of the present disclosure. Other features of the present disclosure will become apparent from the following description.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this disclosure, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure and not to limit the disclosure.

Fig. 1 is a schematic structural view of a storage box provided in an embodiment of the present disclosure in a closed state;

fig. 2 is a schematic structural view of the storage box provided in the embodiment of the present disclosure in an open state;

fig. 3 is a schematic structural view of a storage box according to an embodiment of the present disclosure;

fig. 4 to 11 are exploded views of a storage box according to an embodiment of the present disclosure;

FIG. 12 is an enlarged partial view of a storage cassette provided by an embodiment of the present disclosure;

fig. 13 is a schematic structural view of a storage box provided with a fixing device according to an embodiment of the disclosure;

fig. 14 is a schematic structural view of a storage box provided with a pop-up assembly according to an embodiment of the disclosure;

fig. 15 is a schematic structural view of a storage box provided with a power supply assembly according to an embodiment of the present disclosure;

fig. 16 is a flow chart illustrating charging of the contents by the storage box according to the embodiment of the present disclosure;

fig. 17 is a schematic structural view of a storage box provided with a disinfecting assembly according to an embodiment of the disclosure.

Description of reference numerals:

100-storage box, 110-first shell, 1101-first main body part, 1102-first flange, 111-first groove, 112-first magnetic part, 120-second shell, 1201-second main body part, 1202-second flange, 121-second groove, 122-second magnetic part, 130-flexible connecting part, 141-first inner lining layer, 1411-third main body part, 1412-third flange, 142-second inner lining layer, 1421-fourth main body part, 1422-fourth flange, 143-flexible connecting part, 151-first accommodating groove, 152-second accommodating groove, 161-clamping groove, 162-bulge, 170-buffer layer, 1701-first accommodating groove, 1702-second accommodating groove, 1703-clamping bulge, 181-power supply part, 182-a disinfection component, 183-an ejection component, 1831-a first rod piece, 1832-a second rod piece, 191-a third magnetic piece, 192-a fourth magnetic piece, 193-a first anti-skid layer, 194-a second anti-skid layer and 195-an adhesive layer.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, the following embodiments of the present disclosure will be clearly and completely described in conjunction with the accompanying drawings. It is to be understood that the described embodiments are merely a subset of the disclosed embodiments and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

Technical solutions disclosed in the embodiments of the present disclosure are described in detail below with reference to the accompanying drawings.

As shown in fig. 1-3, the present disclosure provides a storage cassette 100, the disclosed storage cassette 100 including a first housing 110, a first magnetic member 112, a second housing 120, a second magnetic member 122, and a flexible connection 130.

The first housing 110 includes a first body portion 1101 and a first flange 1102, the first body portion 1101 is provided with a first groove 111, and the first flange 1102 surrounds the first groove 111. The first magnetic member 112 is disposed on the first flange 1102. Alternatively, the first magnetic member 112 may be adhered to the first flange 1102, for example, by an adhesive material such as glue, double-sided tape, etc. Of course, the first magnetic member 112 may be fixed in other manners, which is not limited herein.

The second housing 120 comprises a second body portion 1201 and a second flange 1202, the second body portion 1201 being provided with a second recess 121, the second flange 1202 surrounding the second recess 121. The second magnetic member 122 is disposed on the second flange 1202. Alternatively, the second magnetic member 122 may be adhered to the second flange 1202, for example, by an adhesive material such as glue, double-sided tape, etc. Of course, the second magnetic member 122 may be fixed in other manners, which is not limited herein.

The flexible connecting member 130 rotatably connects the first housing 110 and the second housing 120. Alternatively, the first and second body portions 1101, 1201 may be connected by a flexible connection 130, or the first and second flanges 1102, 1202 may be connected by a flexible connection 130. Alternatively, the flexible connecting element 130 may be made of rubber or elastic metal, and the flexible connecting element 130 may also be made of other materials, which is not limited herein.

The storage case 100 has an open state in which the first casing 110 and the second casing 120 are separated from each other and a closed state; in the closed state, the first housing 110 and the second housing 120 rotate through the flexible connection 130 until the first groove 111 is aligned with the second groove 121. The first casing 110 and the second casing 120 are attracted by the first magnetic member 112 and the second magnetic member 122, and the first groove 111 and the second groove 121 together form a closed accommodating space. That is, the flexible connecting element 130 enables the first casing 110 and the second casing 120 to rotate until the first groove 111 and the second groove 121 are aligned, and the first casing 110 and the second casing 120 attract each other through the first magnetic element 112 and the second magnetic element 122.

The accommodating space is used for accommodating an accommodating object, and the accommodating object can be wearable intelligent equipment such as intelligent glasses, wireless earphones and intelligent watches. Of course, the contents may be other articles, and are not limited herein.

In a specific operation, when the storage case 100 is closed, the first casing 110 and the second casing 120 are rotated to a position where the first groove 111 and the second groove 121 face each other. The first and second magnetic members 112 and 122 fix the relative positions of the first and second housings 110 and 120, thereby preventing the first and second housings 110 and 120 from being opened. When the storage box 100 is opened, only a user needs to apply a force to the first and second housings 110 and 120 to overcome the magnetic attraction between the first and second magnetic members 112 and 122, so that the first and second housings 110 and 120 are opened.

In the embodiment provided by the present disclosure, when the storage box 100 is opened or closed, only the user needs to apply an acting force to the first casing 110 and the second casing 120, so as to open or close the storage box 100, and the operation of opening or closing the storage box 100 is simple. The first magnetic member 112 and the second magnetic member 122 achieve the closing of the storage box 100 by the magnetic attraction force. Compare in the mode that adopts the zip fastener, can not take place the motion each other between first magnetic part 112 and the second magnetic part 122, and then just also be difficult to appear receiver 100 closed or take place the phenomenon of jam when opening, consequently make receiver 100 closed easy operation, and then improve receiver 100's performance.

In addition, the receiver among the background art need distinguish the pulling direction of zip fastener earlier when opening or closing to it is comparatively loaded down with trivial details to make the receiver open. The storage box 100 disclosed in the present embodiment does not need to distinguish the directions of the first magnetic member 112 and the second magnetic member 122, so that the opening or closing operation of the storage box 100 is simple.

In addition, when the user operates the storage box 100 to open or close, the magnetic attraction between the first magnetic member 112 and the second magnetic member 122 and the driving force of the user's hands can constitute a comfortable force experience, thereby improving the user experience.

Moreover, compared with a zipper, the first magnetic member 112 and the second magnetic member 122 are small in size, and the first magnetic member 112 and the second magnetic member 122 can be hidden in the first casing 110 and the second casing 120, so that the first magnetic member 112 and the second magnetic member 122 are not easy to see by a user, the appearance performance of the storage box 100 is improved, and the user experience is further improved.

In addition, the first flange 1102 and the second flange 1202 provide a larger mounting position for the first magnetic member 112 and the second magnetic member 122, so that the first magnetic member 112 and the second magnetic member 122 do not occupy the space inside the storage box 100, and the storage box 100 has a larger accommodating space.

Meanwhile, the first flange 1102 and the second flange 1202 have large mating faces, and therefore, the first housing 110 and the second housing 120 can be prevented from being fitted out of alignment, so that the housing cartridge 100 is not likely to be misaligned when closed.

In an alternative example, the outer surfaces of the first main body portion 1101 and the second main body portion 1201 may be arc-shaped surfaces, and both the first main body portion 1101 and the second main body portion 1201 are arc-shaped structures. The outer surfaces of the first and second body portions 1101, 1201 are relatively smooth and free of corners. When the user was taking receiver 100, receiver 100's surface is comparatively level and smooth, and the user has better sense of gripping to user experience has been improved.

Alternatively, the outer surface of the first main body portion 1101 is formed by splicing a plurality of planes, and the first main body portion 1101 may have a rectangular structure. The second body portion 1201 has the same external configuration as the first body portion 1101, and is not described in detail herein. Since the first and second main bodies 1101, 1201 are both rectangular in configuration, the storage case 100 is a rectangular storage case, and the outer surface of the storage case 100 is a flat surface. When the storage box 100 is placed on the tabletop, the storage box 100 has a large contact area with the tabletop, so that the storage box 100 is stable and is not easy to shake.

Still alternatively, one of the first and second main body portions 1101 and 1201 has an arc-shaped structure, and the other thereof has a rectangular structure. Of course, the storage box 100 may have other structures, and is not limited herein.

In an alternative example, the first flange 1102 may surround the opening of the first groove 111, and the first flange 1102 may protrude from an outer side surface of the first body portion 1101. The second flange 1202 may surround an opening of the second groove 121, and the second flange 1202 may protrude from an outer side surface of the second body portion 1201. The above-mentioned facing of the first groove 111 to the second groove 121 means that the flexible link 130 rotates the first housing 110 and the second housing 120, and when the depth direction of the first groove 111 and the depth direction of the second groove 121 are substantially parallel, the opening of the first groove 111 and the opening of the second groove 121 face in the above-mentioned depth direction.

In an alternative example, one of the first magnetic member 112 and the second magnetic member 122 may be a permanent magnet, the other may be a magnetically attractive member, and the magnetically attractive member may be a metal member so as to magnetically attract the permanent magnet. Alternatively, the first and second magnetic members 112 and 122 may be permanent magnets.

In an alternative embodiment, the first rim 1102 extends in a plane perpendicular to the depth direction of the first groove 111. The second flange 1202 extends on a plane perpendicular to the depth direction of the second groove 121. The first flange 1102 and the second flange 1202 are rotatably connected by the flexible connector 130, and the first body portion 1101, the first flange 1102, the second body portion 1201, the second flange 1202 and the flexible connector 130 are an integral structure. The flexible connecting element 130 enables the first casing 110 and the second casing 120 to rotate until the first groove 111 and the second groove 121 are aligned, and the first flange 1102 and the second flange 1202 attract each other through the first magnetic element 112 and the second magnetic element 122. When the first collar 1102 is engaged with the second collar 1202, the depth direction of the first groove 111 and the depth direction of the second groove 121 are substantially parallel, and the first collar 1102 and the second collar 1202 are engaged with each other in a direction perpendicular to the depth direction.

In this embodiment, since the first flange 1102 extends along a plane perpendicular to the depth direction of the first groove 111 and the second flange 1202 extends along a plane perpendicular to the depth direction of the second groove 121, when the storage box 100 is in the closed state, the depth direction of the first groove 111 is the same as the depth direction of the second groove 121, and therefore the extension direction of the first flange 1102 is the same as the extension direction of the second flange 1202, the first flange 1102 and the second flange 1202 can be closely attached to each other, and the waterproof and dustproof performance of the storage box 100 is improved.

In addition, first main part 1101, first flange 1102, second main part 1201, second flange 1202 and flexible connector 130 formula structure as an organic whole, and at this moment, first casing 110 and second casing 120 can be through the smooth connection of flexible connector 130 to improve receiver 100's outward appearance performance, simultaneously, also make receiver 100 have better intensity, thereby improve receiver 100's life.

In another alternative example, as shown in FIG. 3, the first flange 1102 is provided with a first receiving groove 151 and the second flange 1202 is provided with a second receiving groove. At least a portion of the first magnetic member 112 is located in the first receiving groove 151, and at least a portion of the second magnetic member 122 is located in the second receiving groove 152.

In this example, at least a portion of the first magnetic element 112 is hidden in the first receiving groove 151, and at least a portion of the second magnetic element 122 is hidden in the second receiving groove 152. The volume of the first magnetic member 112 protruding from the surface of the first flange 1102 is smaller, and the volume of the second magnetic member 122 protruding from the surface of the second flange 1202 is smaller. When the first case 110 and the second case 120 are closed, the gap between the first flange 1102 and the second flange 1202 is relatively small, so that the waterproof and dustproof performance of the storage case 100 can be improved. Alternatively, the first magnetic member 112 may be completely received in the first receiving groove 151, and the second magnetic member 122 may be completely received in the second receiving groove 152, so as to further reduce the gap between the first flange 1102 and the second flange 1202 when the first casing 110 and the second casing 120 are closed.

In an optional embodiment, the storage box 100 disclosed herein may further include a first inner liner 141 and a second inner liner 142, the first inner liner 141 is attached to the inner side wall of the first casing 110, the first magnetic member 112 is disposed between the first inner liner 141 and the first casing 110, the second inner liner 142 is attached to the inner side wall of the second casing 120, and the second magnetic member 122 is disposed between the second inner liner 142 and the second casing 120.

In this embodiment, the inner sidewalls of the first casing 110 and the second casing 120 are respectively attached with inner liners, which is equivalent to increase the wall thickness of the first casing 110 and the second casing 120, thereby improving the overall strength of the storage box 100.

In addition, the first magnetic member 112 is disposed between the first lining layer 141 and the first case 110, and the second magnetic member 122 is disposed between the second lining layer 142 and the second case 120. The first liner layer 141 covers the first magnetic member 112, and the second liner layer 142 covers the second magnetic member 122, thereby preventing the first magnetic member 112 and the second magnetic member 122 from being exposed. When taking out the contents from storage box 100 or putting the contents into storage box 100, first magnetic member 112 and second magnetic member 122 are less likely to collide with the contents, further improving usability of storage box 100.

In addition, the first magnetic member 112 is sandwiched between the first inner liner layer 141 of the first housing 110, and the second magnetic member 122 is sandwiched between the second housing 120 and the second inner liner layer 142. The first magnetic member 112 may be fixed only by clamping the first housing 110 and the first inner liner layer 141 without using an additional fixing means. The second magnetic member 122 may be fixed only by the clamping of the second housing 120 and the second inner liner layer 142 without using an additional fixing means. The first magnetic member 112 and the second magnetic member 122 are not easily dropped, and thus reliability of the storage box 100 is improved.

Furthermore, the first magnetic member 112 is covered by the first lining layer 141, and the second magnetic member 122 is covered by the second lining layer 142, so that the user can not see the first magnetic member 112 and the second magnetic member 122 when opening the storage box 100, and the appearance performance of the storage box 100 is improved.

In an alternative example, the first lining layer 141 and the first casing 110 may be adhered by an adhesive layer 195, the adhesive layer 195 may be a double-sided tape, glue, or the like, and the adhesive layer 195 may also be another adhesive structure, which is not limited herein. Similarly, the second lining layer 142 and the second casing 120 may be adhered by an adhesive layer 195.

As shown in fig. 10, the adhesive layer 195 may be composed of a plurality of adhesive units, the adhesive units are disposed at intervals, the adhesive units are attached between the inner liner and the housing, and the adhesive units surround the notches of the first groove 111 and the second groove 121. The adhesive layer 195 does not protrude from the first and second flanges 1102 and 1202, so that the notches of the first and second grooves 111 and 121 can be avoided, and interference with the adhesive layer 195 when contents are placed can be prevented.

Alternatively, as shown in fig. 11, the adhesive layer 195 may be an integrated structure, the adhesive layer 195 is a whole, and the adhesive layer 195 is provided with avoiding holes, which are opposite to the first groove 111 and the second groove 121. The avoiding hole can expose the first groove 111 and the second groove 121 without shielding the first groove 111 and the second groove 121. In the thickness direction of the adhesive layer 195, the projected contour of the adhesive layer 195 is located within the projected contours of the first flange 1102 and the second flange 1202, or the projected contour of the adhesive layer 195 coincides with the projected contour of the first flange 1102 and the projected contour of the second flange 1202, and the adhesive layer 195 does not protrude from the first flange 1102 and the second flange 1202, thereby preventing interference with the adhesive layer 195 when placing the contents.

Of course, the adhesive layer 195 may be other structures as well, and only two possible embodiments are provided herein, and are not intended to limit the specific structures herein.

In an alternative example, the first lining layer 141 and the second lining layer 142 may be connected by a flexible connection 143, and the first lining layer 141, the second lining layer 142 and the flexible connection 143 are an integrated structure.

In this example, the shell and the inner liner of receiver 100 are the integral type structure to improve the joint strength of first shell 110 and second shell 120, can avoid receiver 100 in high frequency, long-time switch operation flexible connectors 130 fracture, thereby improved flexible connectors 130 fatigue resistance ability, and then improved receiver 100's life.

Alternatively, the flexible connecting portion 143 and the flexible connecting member 130 can be made of the same flexible material, or can be made of different flexible materials, which is not limited herein.

In an alternative example, a specific structure of the first lining layer 141 is disclosed, but the first lining layer 141 may have other structures, and the structure is not limited herein. Specifically, the first lining layer 141 may include a third main body portion 1411 and a third flange 1412, the third main body portion 1411 may be provided with a third groove, the third flange 1412 may surround the third groove, the third main body portion 1411 is located in the first groove 111, a bottom of the first groove 111 and a bottom of the third groove face the same direction, and the third flange 1412 and the first flange 1102 may be overlapped.

In this example, the structure of the first lining layer 141 matches the structure of the first casing 110, so that the structural strength of the assembly formed by the first lining layer 141 and the first casing 110 is higher, and the service life of the storage box 100 is further prolonged. In addition, the first inner liner layer 141 matches the outer shape of the first housing 110, so that the appearance performance of the storage case 100 is more excellent.

Further, the second lining layer 142 may include a fourth main body portion 1421 and a fourth flange 1422, the fourth main body portion 1421 may be provided with a fourth groove, the fourth flange 1422 may surround the fourth groove, the fourth main body portion 1421 is located in the second groove 121, the bottom of the second groove 121 and the bottom of the fourth groove are oriented in the same direction, and the fourth flange 1422 and the second flange 1202 are overlapped.

In this example, the structure of the second lining layer 142 matches the structure of the second housing 120, so that the structural strength of the assembly formed by the second lining layer 142 and the second housing 120 is higher, and the service life of the storage box 100 is further prolonged. In addition, the second inner liner layer 142 matches the outer shape of the second housing 120, so that the appearance performance of the storage case 100 is more excellent.

In another alternative example, as shown in fig. 4, at least one of the first flange 1102 and the third flange 1412 is provided with a first receiving groove 151, and at least a portion of the first magnetic member 112 is located in the first receiving groove 151.

In this example, at least a portion of the first magnetic member 112 is hidden in the first receiving groove 151, and the volume of the surface of the first magnetic member 112 protruding from the first flange 1102 is smaller, so that when the first casing 110 and the second casing 120 are closed, the gap between the first flange 1102 and the second flange 1202 is relatively smaller, thereby improving the waterproof and dustproof performance of the storage box 100. Optionally, the first magnetic element 112 may be completely received in the first receiving groove 151, so as to further reduce the gap between the first flange 1102 and the second flange 1202 when the first casing 110 and the second casing 120 are closed.

In another alternative example, as shown in fig. 4, at least one of the second flange 1202 and the fourth flange 1422 is provided with a second receiving groove 152, and at least a portion of the second magnetic element 122 may be located in the second receiving groove 152. Alternatively, the second magnetic member 122 may be completely received in the second receiving groove 152, so as to further reduce the gap between the first flange 1102 and the second flange 1202 when the first casing 110 and the second casing 120 are closed. This solution can achieve the same effect as the above embodiment, and is not described herein again.

To further improve cartridge 100 reliability, in an alternative embodiment, as shown in fig. 12, first housing 110 may include a card slot 161 located outside first flange 1102. The second housing 120 may include a protrusion 162 located outside the second flange 1202, and in the closed state, the protrusion 162 is snapped into the snap groove 161.

This scheme realizes receiver 100's closure through the dual connection structure of magnetism and joint to can avoid receiver 100 to open because the maloperation, cause the receiver to damage, and then improve receiver 100's reliability.

In another alternative embodiment, as shown in fig. 13, the storage case 100 disclosed in this embodiment may further include a fixing device, which may be disposed in the receiving space for fixing the contents. When the contents are placed in the accommodating space and move with the storage box 100, the contents are easily scratched against the inner side wall of the first housing 110 or the inner side wall of the second housing 120. By providing the fixing means, the surface of the contents can be prevented from being scratched.

Optionally, the fixing device may be a magnetic member, an elastic band, an elastic string bag, or a strap, or may be other structures, which is not limited herein. In this scheme, fixing device can fix the content to prevent that the content from taking place to remove in the accommodation space, and then prevent that the content from damaging.

In another alternative example, the fixing device may further include a buffer layer 170, and the buffer layer 170 may be disposed in the first groove 111, the second groove 121, or both the first groove 111 and the second groove 121. The specific location of the buffer layer 170 is not limited herein.

The cushioning layer 170 may be an elastic structure. The buffer layer 170 may be provided with an accommodating groove, the bottom of which is oriented in the same direction as the bottom of the first groove 111 and/or the bottom of the second groove 121. The receiving slots may include a first receiving slot 1701 and a second receiving slot 1702 which are communicated with each other. The first and second accommodating grooves 1701 and 1702 may be matched in shape with the accommodating objects for accommodating the accommodating objects. A catching protrusion 1703 may be provided between the first and second receiving grooves 1701 and 1702, and the catching protrusion 1703 may be configured to abut against the contents in a state where the contents are positioned in the receiving case 100.

In this example, the buffer layer 170 is used to carry the contents. Since the buffer layer 170 is an elastic structure, the buffer layer 170 is not easily in rigid contact with the contents, so that the contents are not easily scratched. In addition, when the contents are placed in the first and second accommodating grooves 1701 and 1702, the catching protrusion 1703 can abut against the contents to thereby abut against the contents, further preventing the contents from shaking, and further preventing the contents from being damaged.

Optionally, the cushioning layer 170 may be an elastic net or a sponge plate, but may also be other cushioning structures, which is not limited herein.

In another alternative example, the fixing device may further include a third magnetic member 191 and a fourth magnetic member 192, the third magnetic member 191 may be disposed at the bottom of the first groove 111 or the second groove 121, the fourth magnetic member 192 may be disposed at the bottom of the buffer layer 170 and located at a side facing the first groove 111 or the second groove 121, the third magnetic member 191 may be magnetically attracted to the fourth magnetic member 192, and the third magnetic member 191 may also be magnetically attracted to the contents.

In this example, the buffer layer 170 is connected with the first casing 110 or the second casing 120 by means of magnetic attraction, so that the buffer layer 170 can be detached, and the buffer layer 170 can be cleaned or replaced, thereby improving the maintainability of the storage box 100.

In addition, the third magnetic member 191 can also be magnetically engaged with the contents, and at this time, the taking and placing operations of the contents are simple, so that the storage box 100 is more convenient to operate. Optionally, the third magnetic member 191 may be magnetically engaged with a metal structure on the container, or the third magnetic member 191 may be magnetically engaged with a magnetic structure on the container.

In another alternative embodiment, as shown in fig. 14, the storage box 100 disclosed in this embodiment may further include a pop-up assembly 183, and when the storage box 100 is opened to a predetermined angle, the pop-up assembly 183 may drive the first shell 110 to rotate, so that the opening of the first groove 111 faces away from the opening of the second groove 121.

In specific operation process, when receiver 100 opens, at first need the user to open receiver 100 to predetermineeing the angle, when receiver 100 did not reach and predetermine the angle, the user applied force needs to be greater than the magnetic attraction of first magnetic part 112 and second magnetic part 122 to open receiver 100 to predetermineeing the angle. When the storage box 100 is opened to a predetermined angle, the pop-up assembly 183 can drive the first casing 110 to rotate relative to the second casing 120, so that the storage box 100 is fully opened. At this time, the user does not apply a force to the first housing 110, but the pop-up assembly 183 drives the first housing 110 to rotate, and the driving force of the pop-up assembly 183 is greater than the magnetic attraction force of the first magnetic member 112 and the second magnetic member 122. This scheme can realize user's one-hand operation to it is more laborsaving to make the user open receiver 100 operation.

In an alternative embodiment, a specific structure of the pop-up assembly 183 is disclosed, but the pop-up assembly 183 may have other structures, which is not limited herein. Specifically, the pop-up assembly 183 may include a first stem 1831, a second stem 1832, and an elastic member. The first rod 1831 is sleeved outside the second rod 1832, and the second rod 1832 is movable relative to the first rod 1831 along the extending direction of the first rod 1831. The first link 1831 and the second link 1832 may be elastically connected by an elastic member, one end of the first link 1831 is connected to the second main body portion 1201, and one end of the second link 1832 is connected to the first main body portion 1101.

When the storage box 100 is opened to a predetermined angle, the elastic member drives the second link 1832 to move, and the second link 1832 drives the first housing 110 to rotate.

Specifically, in the operation process, when the opening angle of the storage box 100 is smaller than the preset angle, the elastic force of the elastic member is smaller than the magnetic attraction force of the first magnetic member 112 and the second magnetic member 122. When the opening angle of the storage case 100 is greater than the preset angle, the elastic force of the elastic member is greater than the magnetic attraction force between the first magnetic member 112 and the second magnetic member 122. The preset angle may be any angle of 0 to 30 degrees, for example, 5 degrees, 10 degrees, 15 degrees, and the like. The specific value of the preset angle is not specifically limited herein.

Alternatively, the elastic member may be a spring, and of course, the elastic member may also be another elastic structure, which is not limited herein.

In another alternative embodiment, the number of the first magnetic members 112 may be multiple, and the multiple first magnetic members 112 may be arranged at intervals. The number of the second magnetic members 122 may be plural, and the plural second magnetic members 122 may be arranged at intervals. The first magnetic members 112 and the second magnetic members 122 may correspond one to one. In this embodiment, the number of the first magnetic members 112 and the second magnetic members 122 is large, so that a large magnetic attraction force can be provided for the first casing 110 and the second casing 120, and thus the storage box 100 is not prone to misoperation, and the reliability of the storage box 100 is improved.

In the example shown in fig. 3-9, the first magnetic member 112 may be disposed along an edge of the first flange 1102 and the second magnetic member 122 may be disposed along an edge of the second flange 1202.

Alternatively, as in the example shown in fig. 3 to 5, the first magnetic member 112 may be disposed along one lengthwise edge and two widthwise edges of the first flange 1102, and the second magnetic member 122 may be disposed along one lengthwise edge and two widthwise edges of the second flange 1202. The first and second magnetic members 112 and 122 may have a rectangular plate structure as shown in fig. 3 and 4, and a length direction of the first magnetic member 112 may be disposed along a length direction of the first flange 1102 or a width direction of the first flange 1102. The length direction of the second magnetic member 122 may be arranged along the length direction of the second flange 1202 or the width direction of the second flange 1202. The outer side surfaces of the first magnetic member 112 and the second magnetic member 122 in the length direction are flat surfaces, and the outer side surfaces in the width direction are arc-shaped surfaces, so that the outer side surfaces of the first magnetic member 112 and the second magnetic member 122 are smoothly connected. The first and second magnetic members 112 and 122 may also be disk structures as shown in fig. 5.

Alternatively, as in the example shown in fig. 6 to 9, the first magnetic member 112 may be disposed along edges of two widths of the first flange 1102, and the second magnetic member 122 may be disposed along edges of two widths. The first and second magnetic members 112 and 122 may have an arc-shaped strip structure as shown in fig. 5 to 8, and the radian and length of the first and second magnetic members 112 and 122 are flexibly set according to the shapes of the notches of the first and second grooves 111 and 121. The first magnetic member 112 and the second magnetic member 122 may also be triangular pieces as shown in fig. 9, and the first magnetic member 112 and the second magnetic member 122 have a larger effective matching area, so that the magnetic attraction performance of the first magnetic member and the second magnetic member can be improved.

Of course, the shapes, structures and arrangements of the first and second magnetic members 112 and 122 shown in fig. 3 to 9 are only provided as a few possible embodiments, and are not intended to limit the specific structures.

In another alternative embodiment, the outer surface of at least one of the first and second body portions 1101, 1201 is provided with an anti-slip layer. At this time, when the storage box 100 is held or placed on a desktop, the anti-slip layer can increase the friction between the storage box 100 and the desktop or the palm of the user, thereby preventing the storage box 100 from dropping, and further preventing the storage box 100 from being damaged.

Optionally, the anti-slip layer may be made of rubber or silica gel, or may be made of other materials, which is not limited herein.

In another alternative example, the anti-slip layer may include a first anti-slip layer 193 disposed on an outer surface of the first body part 1101 and a second anti-slip layer 194 disposed on an outer surface of the second body part 1201, the first anti-slip layer 193 and the second anti-slip layer 194 being symmetrically disposed.

This example can both achieve the anti-slip of the storage box 100 and make the overall weight of the storage box 100 light, thereby making the storage box 100 convenient to carry.

To further enhance the usability of the storage cassette 100, in an alternative embodiment, as shown in fig. 17, the storage cassette 100 disclosed herein may further include a sterilization assembly 182, and the sterilization assembly 182 may be located in the receiving space.

In this embodiment, the sterilizing assembly 182 may sterilize the contents put in the receiving cassette 100, or the sterilizing assembly 182 may sterilize the inside of the receiving cassette 100.

Optionally, the sterilization assembly 182 may include a uv lamp and a switch that controls the uv lamp to be turned on when the cartridge 100 is in the closed state, thereby performing a sterilization operation. Before the storage box 100 is opened, the switch can be controlled to turn off the ultraviolet lamps and then turn on the storage box 100. Further, the switch can be inductive switch, and receiver 100 is opened and is that the ultraviolet lamp is closed, and when receiver 100 was closed, the ultraviolet lamp was opened to realize the automatic closure of ultraviolet lamp.

The sterilization assembly 182 may also be an ultrasonic emitter that emits ultrasonic waves to sterilize the contents. Of course, the sterilization assembly 182 may be a sterilization device of other configurations, and is not limited herein.

To further enhance the usability of the storage case 100, in an alternative embodiment, as shown in fig. 15 and 16, the storage case 100 disclosed herein may further include a power supply assembly 181, and the power supply assembly 181 may include an energy storage device and a charging device, the energy storage device being electrically connected to the charging device and configured to draw power from an external power source. The energy storage device can charge the contents when the contents are located in the accommodating space.

In this embodiment, the storage box 100 can charge the contents, thereby improving the usability of the storage box 100. In addition, when the contents are charged, the contents can be put into the storage box 100, thereby making the contents more safely charged.

Alternatively, the energy storage device may be a battery, for example, the energy storage device may be a zinc-manganese dry cell battery, a lithium battery, or the like. Of course, the energy storage device may be other types of batteries, and this is not limited herein. The charging device may be a data line, a solar panel, or a wireless charging coil, and of course, the charging device may also have other structures, which is not limited herein.

The application also discloses a receiver subassembly, the receiver subassembly that discloses includes the receiver in content and the above-mentioned arbitrary embodiment.

In the embodiments of the present disclosure, the difference between the embodiments is described in detail, and different optimization features between the embodiments can be combined to form a better embodiment as long as they are not contradictory, and further description is omitted here in view of brevity of the text.

The above description is only an example of the present disclosure and is not intended to limit the present disclosure. Various modifications, equivalents, improvements, etc., will occur to those skilled in the art.

Claims (18)

1. A storage cassette comprising:

the first shell comprises a first main body part and a first flange, the first main body part is provided with a first groove, and the first flange surrounds the first groove;

the first magnetic piece is arranged on the first flange;

the second shell comprises a second main body part and a second flange, the second main body part is provided with a second groove, and the second flange surrounds the second groove;

a second magnetic member disposed on the second flange; and

the flexible connecting piece, the flexible connecting piece rotate to be connected first casing with the second casing, flexible connecting piece makes first casing with the second casing rotates extremely first recess with the second recess is just right to, first casing with the second casing passes through first magnetic part with the actuation of second magnetic part looks, first recess with the second recess forms closed accommodation space jointly.

2. The storage cassette of claim 1, wherein the first flange extends on a plane perpendicular to a depth direction of the first groove;

the second flange extends on a plane perpendicular to a depth direction of the second groove;

the first flange and the second flange are rotationally connected through the flexible connecting piece, the flexible connecting piece enables the first shell and the second shell to rotate until the first groove and the second groove are aligned, and the first flange and the second flange are attracted through the first magnetic piece and the second magnetic piece;

the first body portion, the first flange, the second body portion, the second flange, and the flexible connector are an integral structure.

3. The storage box according to claim 1 or 2, wherein the storage box further comprises a first inner liner layer and a second inner liner layer, the first inner liner layer is attached to the inner side wall of the first shell, the first magnetic part is arranged between the first inner liner layer and the first shell, the second inner liner layer is attached to the inner side wall of the second shell, and the second magnetic part is arranged between the second inner liner layer and the second shell.

4. The storage box according to claim 3, wherein the first inner liner layer and the second inner liner layer are connected through a flexible connecting portion, and the first inner liner layer, the second inner liner layer and the flexible connecting portion are of an integrated structure.

5. The storage box according to claim 4, wherein the first lining layer comprises a third main body portion and a third flange, the third main body portion is provided with a third groove, the third flange surrounds the third groove, the third main body portion is located in the first groove, the bottom of the first groove and the bottom of the third groove are in the same orientation, and the third flange is overlapped with the first flange;

the second inner liner layer comprises a fourth main body portion and a fourth flange, the fourth main body portion is provided with a fourth groove, the fourth flange surrounds the fourth groove, the fourth main body portion is located in the second groove, the bottom of the second groove is the same as the bottom of the fourth groove in orientation, and the fourth flange is overlapped with the second flange.

6. The storage cassette of claim 5, wherein at least one of the first flange and the third flange is provided with a first receiving slot, at least a portion of the first magnetic member being located within the first receiving slot; and/or the presence of a gas in the gas,

at least one of the second flange and the fourth flange is provided with a second receiving groove, and at least part of the second magnetic part is positioned in the second receiving groove.

7. The cartridge of claim 1 or 2, wherein the first shell includes a catch located outside the first flange and the second shell includes a projection located outside the second flange, the projection being snapped into the catch in the closed state.

8. The cartridge according to claim 1 or 2, further comprising a fixing device provided in the accommodation space for fixing contents.

9. The storage box according to claim 8, wherein the fixing device comprises a buffer layer, the buffer layer is disposed in the first groove and/or the second groove, the buffer layer is an elastic structural member, the buffer layer is provided with a containing groove, the bottom of the containing groove is in the same orientation as the bottom of the first groove and/or the bottom of the second groove, the containing groove comprises a first containing groove and a second containing groove which are communicated with each other, the first containing groove and the second containing groove are matched with the shape of the storage material, a clamping protrusion is disposed between the first containing groove and the second containing groove, and the clamping protrusion is configured to abut against the storage material when the storage material is located in the storage box.

10. The storage box according to claim 9, wherein the fixing means further includes a third magnetic member provided at the bottom of the first groove or the second groove, and a fourth magnetic member provided at the bottom of the buffer layer on a side facing the first groove or the second groove, the third magnetic member magnetically attracting and cooperating with the fourth magnetic member, and the third magnetic member magnetically attracting and cooperating with the contents.

11. The storage cassette of claim 1 or 2, further comprising a pop-up assembly that drives the first housing to rotate so that the opening of the first recess is away from the opening of the second recess when the storage cassette is opened to a predetermined angle.

12. The storage box according to claim 11, wherein the pop-up assembly includes a first bar member, a second bar member, and an elastic member, the first bar member is fitted around the second bar member, the second bar member is movable relative to the first bar member in an extending direction of the first bar member, the first bar member and the second bar member are elastically connected by the elastic member, one end of the first bar member is connected to the second main body portion, and one end of the second bar member is connected to the first main body portion;

when the storage box is opened to the preset angle, the elastic piece drives the second rod piece to move, and the second rod piece drives the first shell to rotate.

13. The storage box according to claim 1 or 2, wherein the number of the first magnetic members is plural, the plural first magnetic members are arranged at intervals, the number of the second magnetic members is plural, the plural second magnetic members are arranged at intervals, and the first magnetic members and the second magnetic members are in one-to-one correspondence.

14. The storage cassette according to claim 1 or 2, wherein an outer surface of at least one of the first body portion and the second body portion is provided with an anti-slip layer.

15. The storage box according to claim 14, wherein the anti-slip layer includes a first anti-slip layer provided on an outer surface of the first main body portion and a second anti-slip layer provided on an outer surface of the second main body portion, and the first anti-slip layer and the second anti-slip layer are symmetrically provided.

16. The cartridge of claim 1 or 2, further comprising a disinfecting assembly located within the receiving space.

17. The storage case according to claim 1 or 2, further comprising a power supply assembly including an energy storage device electrically connected to the charging device and configured to obtain electric power from an external power source, and a charging device capable of charging the contents with the contents in the accommodating space.

18. A cartridge assembly comprising the cartridge of any one of claims 1-17 and contents.

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