CN215221774U - Storage device - Google Patents

Abstract

The utility model relates to an accommodating device for accomodate portable power source, accommodating device includes: the protective sheath, the cover is established outside the portable power source and have and encircle the side that portable power source set up is global, the protective sheath include with a plurality of bosss that the side is global to be connected and the interval sets up, be formed with the installation gap between the boss. And the connecting piece comprises a connector and a connecting wire, the connector is arranged at the end part of the connecting wire and detachably connected with the boss, and the connecting wire is matched with the mounting gap. So can fix the connecting piece detachable on the protective sheath to the effect of accomodating of full play protective sheath makes carrying and depositing of connecting piece can be more convenient, prevents that the connecting piece from producing to forget or losing. Can be with smooth uninstallation on whole connecting piece follow the protection cover simultaneously for whole storage device is more convenient in the use.

Description

Storage device

Technical Field

The utility model relates to an electronic equipment technical field especially relates to an accommodating device.

Background

The portable power source has come along with the popularization of electronic equipment such as smart mobile phone, and portable power source is used for storing the electric energy, can supply the electric quantity to smart mobile phone at any time in order to guarantee that it has sufficient duration. In general, in order to improve the anti-falling or anti-pollution capability of the portable power source, the portable power source may be housed in a housing device such as a protective case. However, protective sheath single structure, it can only be taken in and the guard action to portable power source, and the protective sheath can't be taken in the effect to charging wire and data line. The carrying of the charging wire and the data wire is inconvenient, the forgetting and the loss of the charging wire and the data wire are easily caused, and finally, the protective sleeve is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem how to improve the convenience that storage device used.

A storage device for storing a mobile power source, the storage device comprising:

the protective sleeve is sleeved outside the mobile power supply and provided with a side circumferential surface surrounding the mobile power supply, the protective sleeve comprises a plurality of bosses which are connected with the side circumferential surface and are arranged at intervals, and installation gaps are formed among the bosses; and

the connecting piece, including connector and connecting wire, the connector sets up the tip of connecting wire and with the connection can be dismantled to the boss, the connecting wire with the cooperation of installation gap.

In one embodiment, the connecting head is provided with a mounting hole, and the mounting hole is matched with the boss.

In one embodiment, the side circumferential surface includes two planar side planes and two arc side arc surfaces, the two side planes are arranged at intervals along the thickness direction of the protective sleeve, the two side arc surfaces are respectively connected to two ends of the side planes and arranged at intervals along the width direction of the protective sleeve, and the bosses are arranged on the side planes and the side arc surfaces.

In one embodiment, the mounting slot comprises a helical slot disposed around the protective sheath.

In one embodiment, the bosses are arranged in a matrix on the side plane and the side arc surface.

In one embodiment, the boss is square or circular in cross-section.

In one embodiment, the boss is integrally connected to the side circumferential surface.

In one embodiment, the connecting wire is fixedly connected with the connecting head, and the length of an exposed part of the connecting wire exposed out of the connecting head is kept constant.

In one embodiment, the number of the connectors is two, and the two connectors are respectively connected to two ends of the connecting line.

In one embodiment, the protective sleeve is a flexible silicone protective sleeve.

The utility model discloses a technical effect of an embodiment is: after the connector is connected with the raised head and the connecting wire is matched with the mounting gap, the connecting piece can be detachably fixed on the protective sleeve, so that the storage effect of the protective sleeve is fully exerted, the carrying and storage of the connecting piece are more convenient, and the connecting piece is prevented from being forgotten or lost. Simultaneously, when needs use the connecting piece, can be with smooth uninstallation on whole connecting piece follow the protection cover for whole storage device is more convenient in using, greatly improves storage device's user experience.

Drawings

Fig. 1 is a schematic perspective view of a storage device according to an embodiment;

fig. 2 is a schematic perspective view of the storage device shown in fig. 1 from another viewing angle.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "inner", "outer", "left", "right" and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1 and fig. 2, an embodiment of the present invention provides an accommodating device 10 for accommodating a mobile power source 20. Through with portable power source 20 holding in this storage device 10, portable power source 20's of being convenient for carry and deposit on the one hand, on the other hand can make storage device 10 form fine guard action to portable power source 20, avoids outside solid-state or liquid pollutant to removing the adhesion at portable power source 20 surface or get into portable power source 20 inside, prevents that the pollutant from constituting to portable power source 20 and polluting and corroding, improves portable power source 20's life. Meanwhile, the storage device 10 can absorb external impact energy well, so that the mobile power supply 20 is prevented from being damaged in the falling or collision process, and the service life of the mobile power supply 20 can be further prolonged. The storage device 10 includes a protective sheath 100 and a connector 200.

Referring to fig. 1 and fig. 2, in some embodiments, the shape of the protective cover 100 is substantially similar to the shape of the mobile power source 20, and the protective cover 100 has a receiving cavity, in which the mobile power source 20 is received, in other words, the protective cover 100 is sleeved outside the mobile power source 20. The protective sheath 100 may be made of a flexible silicone material, that is, the protective sheath 100 is a flexible silicone protective sheath 100, and of course, in other embodiments, the protective sheath 100 may also be made of a flexible material such as rubber. By adopting the flexible material to make the protective sleeve 100, on one hand, the protective sleeve 100 can be prevented from generating large hard impact on the mobile power supply 20 in the sleeving process, and the protective sleeve 100 can be prevented from damaging the mobile power supply 20; meanwhile, after the mobile power supply 20 is dropped or collided, the protective sleeve 100 made of the flexible material can absorb the impact energy more effectively, and the protective capability of the protective sleeve 100 on the mobile power supply 20 is improved. On the other hand, the strong hard collision between the protective sleeve 100 and the user during the holding process can be avoided, and the comfort of holding the protective sleeve 100 and the user experience can be improved.

The protective case 100 has a side circumferential surface 110, and the side circumferential surface 110 is formed in a circumferentially closed ring shape such that the side circumferential surface 110 is disposed around the portable power source 20. The protective cover 100 includes a boss 120, one end of the boss 120 is a fixed end and is fixed on the side peripheral surface 110, and the other end of the boss 120 is a free end and extends a certain length along the normal direction of the side peripheral surface 110, that is, the boss 120 protrudes a certain height relative to the side peripheral surface 110. The number of the bosses 120 is plural, and the plural bosses 120 are arranged at intervals on the side circumferential surface 110, for example, the bosses 120 may be arranged in a matrix on the side circumferential surface 110 to form plural rows and plural columns. In other embodiments, the bosses 120 may be arranged to form a shape of an animal or a plant, or may also be arranged to form a shape of an arabic numeral or an english letter, so as to enhance the design of the whole receiving device 10, thereby enabling a user to form different visual experiences.

In some embodiments, the entire protective cover 100 can be formed by injection molding, such that the boss 120 and the side surface 110 are integrally connected. The boss 120 is made of the same flexible material as the rest of the sheath 100. During injection molding, a molten liquid may be injected into the injection mold through an injection molding machine, so that the molten liquid fills the entire cavity of the injection mold. And then keeping the pressure of the injection molding machine at a set value for a certain period of time, namely maintaining the pressure of the injection mold. The molten liquid may then be solidified and formed by water cooling or natural cooling, i.e., the molten liquid is solidified to form the protective sheath 100 in a product state.

Since the bosses 120 are spaced apart on the side circumferential surface 110 such that a gap is formed between the bosses 120, the gap may be referred to as a mounting gap 121 for convenience of description. The combination of the plurality of different bosses 120 may form the mounting gap 121 having different shapes, for example, the mounting gap 121 may include a straight line gap or a curved line gap. When the mounting slit 121 is a linear slit, the linear slit may extend along the length direction of the protective sheath 100, may extend along the width direction of the protective sheath 100, or may extend along a direction forming a predetermined angle with the length direction or the width direction of the protective sheath 100. When the mounting slot 121 is a curved slot, the curved slot may be a two-dimensional planar slot, i.e., the curved slot is curved to form a planar pattern, e.g., the curved slot may be S-shaped or L-shaped, etc. The curved slit may also be a three-dimensional slit, for example, the curved slit is bent to form a spiral pattern, that is, the curved slit is a spiral slit that is circumferentially disposed around the entire mobile power supply 20.

In some embodiments, the side surface 110 of the protective sheath 100 includes two side planes 111, each of the two side planes 111 is planar, and the two side planes 111 are spaced apart along the thickness direction of the protective sheath 100. Bosses 120 may be provided on both side planes 111. When the mounting slit 121 is a linear slit, the linear slit may be formed by a slit between the bosses 120 located on the same side plane 111.

In some embodiments, the side circumference 110 of the protective sheath 100 may further include two side arcs 112, each of the two side arcs 112 is arc-shaped, and the two side arcs 112 are spaced apart along the width direction of the protective sheath 100. One of the side arc surfaces 112 is connected with one of the two side planes 111, the other side arc surface 112 is connected with the other end of the two side planes 111, and the two side arc surfaces 112 can be provided with bosses 120. At this time, when the installation slit 121 is a straight slit, the straight slit may be formed by a slit between the bosses 120 located on the same side plane 111, or may be formed by a slit between the bosses 120 located on the same side arc surface 112. When the mounting slit 121 is a curved slit having a two-dimensional planar shape, the mounting slit 121 may be formed by a slit between the bosses 120 located on the same side plane 111. When the mounting gap 121 is a spiral gap, the mounting gap 121 may be formed by a gap between the two side planes 111 and the bosses 120 on the two side arcs 112.

Referring to fig. 1 and 2 together, in some embodiments, the cross-section of the boss 120 may be square, such that the boss 120 is substantially a rectangular parallelepiped structure. The boss 120 may also be circular in cross-section such that the boss 120 is generally cylindrical in configuration. The cross-section of the boss 120 may also be other regular polygonal structures, such that the boss 120 has substantially other regular prismatic structures. Therefore, according to the actual requirement, the cross section of the boss 120 can be adjusted, so as to change the three-dimensional structure of the boss 120 in the whole three-dimensional space range.

Referring to fig. 1 and fig. 2, in some embodiments, the connector 200 may be a charging cable or a data cable, and the connector 200 includes two connectors 210 and a connection cable 220, the connectors 210 are used to connect electronic devices such as a computer or a charging power supply, the connectors 210 are fixed at ends of the connection cable 220, one of the connectors 210 is fixed at one end of the connection cable 220, and the other connector 210 is fixed at the other end of the connection cable 220, that is, the two connectors 210 are respectively fixed at two opposite ends of the connection cable 220. The connecting wire 220 does not extend or contract relative to the connecting head 210, so that the length of the exposed portion of the connecting wire 220 exposed to the connecting head 210 is always kept constant.

In some embodiments, an end surface of the connection head 210 in the thickness direction thereof is provided with a mounting hole 211, and the mounting hole 211 may be formed by a portion of the end surface recessed by a set depth in the thickness direction of the connection head 210. The shape of the mounting hole 211 is matched with the shape of the boss 120, and when the boss 120 has a square cross section, the mounting hole 211 also has a square cross section. When the connector 210 is fixed to the protective cover 100, the boss 120 may be directly inserted into the mounting hole 211, thereby forming a detachable connection relationship between the connector 210 and the protective cover 100. When the connector 210 needs to be unloaded from the protective case 100, an external pulling force can be applied to the connector 210, so that the boss 120 is disengaged from the mounting hole 211. Therefore, for the same side plane 111, when the mounting holes 211 on the connecting head 210 are matched with different bosses 120, the mounting position of the connecting head 210 relative to the side plane 111 can be changed, so that the mounting position of the connecting head 210 relative to the whole side circumference 110 can be adjusted as required, that is, the connecting head 210 can be fixed at a proper position on the protective cover 100.

After the connector 210 is fixed on the protective sheath 100, the connecting wire 220 can be engaged with the mounting slot 121, so as to fix the connecting wire 220 on the protective sheath 100, and obviously, the connecting wire 220 forms a detachable connection relationship with the protective sheath 100, and after the connecting wire 220 is pulled out from the mounting slot 121, the connection relationship between the connecting wire 220 and the protective sheath 100 can be released, so as to unload the connecting wire 220 from the protective sheath 100. Therefore, the connector 210 and the connection line 220 of the connector 200 can be detachably connected and fixed on the protective sleeve 100 by the matching of the mounting hole 211 and the boss 120 and the matching of the connection line 220 and the mounting gap 121, so that the detachable connection relationship between the whole connector 200 and the protective sleeve 100 is realized.

In the case that the length of the connection line 220 is shorter, for example, the length of the connection line 220 is smaller than the length of the protective sheath 100, the two connectors 210 may be fixed on the boss 120 on the same plane 111, that is, the two connectors 210 are spaced apart on the same plane 111. In this case, the connection line 220 may be engaged with a straight slit or a curved slit having a two-dimensional plane shape. In the case that the length of the connection line 220 is larger, for example, the length of the connection line 220 is larger than that of the protective sheath 100, the two connectors 210 may be respectively fixed on different side planes 111, and when the distances from the two connectors 210 to the same end of the protective sheath 100 are equal, that is, the connectors 210 are not spaced apart along the length direction of the protective sheath 100 and the heights of the connectors 210 on the protective sheath 100 are equal, the connection line 220 may be matched with a two-dimensional planar curved slit. When the distances from the two connectors 210 to the same end of the protective sheath 100 are not equal, that is, the connectors 210 are spaced along the length direction of the protective sheath 100 to have different "heights" on the protective sheath 100, the connection line 220 may be engaged with a three-dimensional spiral slit.

Therefore, after the connecting element 200 is fixed on the protective sheath 100, the storage function of the protective sheath 100 can be fully exerted, so that the carrying and storage of the connecting element 200 are more convenient, and the connecting element 200 is prevented from being forgotten or lost. Meanwhile, when the connecting member 200 is required to be used, the whole connecting member 200 can be smoothly unloaded from the protective sleeve 100, so that the whole storage device 10 is more convenient to use, and the user experience of the storage device 10 is greatly improved.

In other embodiments, the boss 120 may be a truncated pyramid or a truncated cone, and the cross-sectional dimension of the boss 120 gradually increases along a direction in which the free end of the boss 120 points to the fixed end, so that the width of the mounting gap 121 gradually decreases along the reference direction, and in a popular way, the width of the mounting gap 121 is in a structural form of "wide top and narrow bottom". When the connecting wire 220 is snapped into the mounting gap 121, on one hand, the connecting wire 220 can be relatively easily matched with the mounting gap 121, so that the connecting wire 220 is ensured to be snapped into the mounting gap 121 more smoothly, and the assembly efficiency between the connecting wire 220 and the mounting gap 121 is improved. On the other hand, the mounting gap 121 can be matched with the connecting wires 220 with different sizes, so that the connecting wire 220 with a smaller size is matched with the lower part of the mounting gap 121, and the connecting wire 220 with a larger size is matched with the upper part of the mounting gap 121, and finally the universality of the mounting gap 121 can be improved. Meanwhile, a protrusion may be provided on the connection head 210 and a mounting hole 211 may be provided on the boss, and when the protrusion is engaged with the mounting hole 211, the connection head 210 may be fixed on the boss 120 as well. Of course, the protrusion on the connector 210 may also be matched with the mounting gap 121, and considering that the width of the mounting gap 121 is in a structural form of "wide top and narrow bottom", the mounting gap 121 may be configured to be matched with protrusions of different sizes, that is, the connectors 210 of different sizes may be fixed on the protective sheath 100, and the universality of the mounting gap 121 is also improved from another angle.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A storage device for storing a mobile power supply, the storage device comprising:

the protective sleeve is sleeved outside the mobile power supply and provided with a side circumferential surface surrounding the mobile power supply, the protective sleeve comprises a plurality of bosses which are connected with the side circumferential surface and are arranged at intervals, and installation gaps are formed among the bosses; and

the connecting piece, including connector and connecting wire, the connector sets up the tip of connecting wire and with the connection can be dismantled to the boss, the connecting wire with the cooperation of installation gap.

2. The storage device of claim 1, wherein the connector has a mounting hole formed therein, the mounting hole being engaged with the boss.

3. The storage device according to claim 1, wherein the lateral periphery includes two planar lateral surfaces and two arc lateral surfaces, the two planar lateral surfaces are spaced apart from each other along a thickness direction of the protection sleeve, the two arc lateral surfaces are connected to two ends of the planar lateral surfaces and spaced apart from each other along a width direction of the protection sleeve, and the bosses are disposed on the planar lateral surfaces and the arc lateral surfaces.

4. The containment device of claim 3, wherein the mounting slot comprises a spiral slot disposed around the protective sheath.

5. The receptacle of claim 3, wherein the bosses are arranged in a matrix arrangement on both the side planar surfaces and the side arcuate surfaces.

6. The containment apparatus of claim 1, wherein the boss is square or circular in cross-section.

7. The receiving device according to claim 1, wherein the boss is integrally connected to the side circumferential surface.

8. The storage device according to claim 1, wherein the connection line is fixedly connected to the connector, and a length of an exposed portion of the connection line exposed outside the connector is kept constant.

9. The storage device according to claim 1, wherein the number of the connectors is two, and the two connectors are respectively connected to two ends of the connecting line.

10. The storage device of claim 1, wherein the protective sleeve is a flexible silicone protective sleeve.

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