Disclosure of Invention
The utility model aims to provide an energy storage cabinet which aims to solve the technical problem that the power supply mode of the existing energy storage power supply is single.
In order to achieve the above object, the present utility model provides an energy storage cabinet, comprising:
the cabinet body is provided with a plurality of energy storage bins, and the energy storage bins are used for storing energy storage power supplies;
the input interfaces are multiple in number, each input interface in the multiple input interfaces is respectively arranged in each energy storage bin in the multiple energy storage bins, and the multiple input interfaces are mutually connected in parallel or in series and are used for being connected with the output end of the energy storage power supply;
the output interface is arranged on the cabinet body and used for being connected with load equipment, and a plurality of input interfaces are electrically connected with the output interface.
In the energy storage cabinet, the cabinet body is provided with a plurality of placing ports, each placing port in the plurality of placing ports is respectively communicated with each energy storage bin in the plurality of energy storage bins, the placing ports are used for taking and placing an energy storage power supply, each energy storage bin is provided with a first side wall opposite to the corresponding placing port, and each input interface is arranged on the corresponding first side wall of the energy storage bin.
In the energy storage cabinet, each energy storage bin is provided with a second side wall positioned between the corresponding placing opening and the first side wall, the second side wall of each energy storage bin is provided with a sliding rail, the sliding rail of each energy storage bin is arranged in an extending mode along a first direction, and the sliding rail is used for guiding an energy storage power supply to move;
the first direction is along the first side wall of the energy storage bin to the corresponding placing opening.
In the energy storage cabinet, the second side walls of each energy storage bin, which are positioned at the two sides of the corresponding placement opening, are respectively provided with the sliding rails, and the two sliding rails are respectively used for erecting lifting lugs at the two sides of an energy storage power supply so as to guide the energy storage power supply to move.
In the energy storage cabinet, the energy storage cabinet further comprises at least one driving structure, at least one driving structure is arranged on the cabinet body, each driving structure corresponds to a plurality of energy storage bins, and the driving structure is used for driving an energy storage power supply to move back and forth along a first direction so as to enable the output end of the energy storage power supply to be connected with or separated from the input interface corresponding to the energy storage bin;
the first direction is along the first side wall of the energy storage bin to the corresponding placing opening.
In the energy storage cabinet, each driving structure comprises a driving motor, a linkage shaft and a plurality of rotating shafts, the driving motor of each driving structure is connected to the linkage shaft, the linkage shaft of each driving structure is in transmission connection with the plurality of rotating shafts, the plurality of rotating shafts of each driving structure penetrate through the plurality of energy storage bins, the plurality of rotating shafts of each driving structure are arranged at intervals along a first direction, a plurality of rollers are arranged on each rotating shaft and used for dragging the bottom of an energy storage power supply, and the driving motor of each driving structure drives the plurality of rotating shafts to rotate so as to drag the energy storage power supplies in the plurality of energy storage bins to move through the rollers.
In the energy storage cabinet, each input interface comprises a supporting structure and an interface structure, the supporting structure of each input interface is arranged on the side wall of the corresponding energy storage bin, and the interface structure of each input interface is movably arranged on the supporting structure so as to adjust the position of the interface structure relative to the supporting structure and align with the output end connected with an energy storage power supply.
In the energy storage cabinet, each input interface comprises an interface end and an alignment cover, wherein the alignment cover is movably arranged on the periphery of the interface end, the alignment cover can be moved to be arranged around the interface end or to enable the interface end to protrude out of the alignment cover, an alignment piece is arranged at the end, far away from the supporting structure, of the alignment cover, and the alignment piece is used for being aligned with the side of the output end of the energy storage power supply.
In the energy storage cabinet, the alignment piece is a magnetic attraction piece and is used for being connected with the side magnetic attraction of the output end of the energy storage power supply.
In the energy storage cabinet of the utility model, a first resetting piece is arranged between the interface end and the alignment cover, so that the alignment cover tends to be arranged around the interface end.
According to the energy storage cabinet provided by the utility model, a user can place the energy storage power supply in the energy storage bin and is connected with the input interface, and the energy storage power supply can supply power to the load equipment when the input interface is electrically connected with the output interface and the load equipment is connected with the output interface. And according to the user needs, the user also can place a plurality of energy storage power supplies respectively in a plurality of energy storage bins to connect the energy storage power supplies with corresponding input interfaces, when connecting output interfaces with load equipment, can realize that a plurality of energy storage power supplies supply power to single load equipment simultaneously, can ensure to supply power to load equipment constantly. And take out energy storage power supply in the energy storage storehouse, also can supply power to load equipment alone for energy storage power supply's power supply mode is diversified, and application scope is wider, has improved user experience.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
It should be noted that all directional indications (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship between the components, the movement condition, etc. in a specific posture, and if the specific posture is changed, the directional indication is changed accordingly.
It will also be understood that when an element is referred to as being "mounted" or "disposed" on 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 be indirectly connected to the other element through intervening elements.
Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.
The energy storage power supply is used as an emergency power supply, can store power and can supply power to other equipment when needed. When a user uses an energy storage power supply to supply power to a load device, the load device is generally electrically connected with an output end of the energy storage power supply, which means that only one load device can be supplied with power by one energy storage power supply. Therefore, the existing energy storage power supply has a single power supply mode, has various limitations on the application range, and influences the use experience of users.
Therefore, the embodiment of the utility model provides the energy storage cabinet, so that the power supply modes of the energy storage power supply are diversified, the application range is wider, and the user experience is improved.
Some embodiments of the present utility model are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments may be combined with each other without conflict.
Referring to fig. 1 and 2, an energy storage cabinet provided in an embodiment of the present utility model includes a cabinet body 10, an input interface 20 and an output interface.
The cabinet 10 is provided with a plurality of energy storage bins 10a, and the energy storage bins 10a are used for storing the energy storage power supply 200. The number of the input interfaces 20 is multiple, each input interface 20 in the multiple input interfaces 20 is respectively arranged in each energy storage bin 10a in the multiple energy storage bins 10a, and the multiple input interfaces 20 are mutually connected in parallel or in series and are used for being connected with the output end of the energy storage power supply 200. The output interface is arranged on the cabinet body 10 and is used for connecting load equipment, and the plurality of input interfaces 20 are electrically connected with the output interface.
It can be appreciated that each energy storage bin 10a is provided with a corresponding input interface 20, so that the energy storage power source 200 disposed in the energy storage bin 10a can be electrically connected to the output interface through the input interface 20.
It will be appreciated that the plurality of input interfaces 20 may be connected in parallel or in series with each other, where all of the input interfaces 20 are shown as being connected in parallel, or all of the input interfaces 20 are connected in series, or some of the input interfaces 20 are connected in parallel, or some of the input interfaces 20 are connected in series, for example, some of the input interfaces 20 are connected in series to form a series group, then a plurality of series groups are connected in parallel, and for example, some of the input interfaces 20 are connected in parallel to form a parallel group, and then a plurality of parallel groups are connected in parallel.
In the case that the connected energy storage power supply 200 is connected in parallel to the circuit, the continuous power supply to the load device is not affected even if the energy storage power supply 200 is replaced, so that the convenience of use of a user is improved. For example, when the plurality of energy storage power sources 200 supply power to the load device, the plurality of input interfaces 20 are connected in parallel, and the power supply to the load device is not affected continuously even if any of the energy storage power sources 200 is replaced.
According to the energy storage cabinet provided by the utility model, a user can place the energy storage power supply 200 in the energy storage bin 10a and is connected with the input interface 20, and the energy storage power supply 200 can supply power to load equipment when the input interface 20 is electrically connected with the output interface and the load equipment is connected with the output interface. In addition, according to the needs of the user, the user can also place the plurality of energy storage power supplies 200 in the plurality of energy storage bins 10a respectively, and connect the energy storage power supplies 200 with the corresponding input interfaces 20, when the output interfaces are connected with the load devices, the plurality of energy storage power supplies 200 can supply power to the single load device at the same time, and the continuous power supply to the load devices can be ensured. And take out energy storage power supply 200 from energy storage storehouse 10a, also can supply power to the load equipment alone for energy storage power supply 200's power supply mode is diversified, and application scope is wider, has improved user experience.
Referring to fig. 1 and 2, in some embodiments, the cabinet 10 is provided with a plurality of placement openings 10b, each placement opening 10b of the plurality of placement openings 10b is respectively connected to each storage compartment 10a of the plurality of storage compartments 10a, the placement openings 10b are used for taking and placing the storage power source 200, each storage compartment 10a is provided with a first side wall 11 opposite to the corresponding placement opening 10b, and each input interface 20 is provided on the first side wall 11 of the corresponding storage compartment 10 a. The user can place the energy storage power supply 200 in the energy storage bin 10a through the placement port 10b, and can also take out the energy storage power supply 200 from the placement port 10b, so that the user can use the energy storage power supply 200 alone or in combination. And, set up input interface 20 at first lateral wall 11 for the user can be along the direction that energy storage power supply 200 got and put direct with energy storage power supply 200 access input interface 20, or separate with input interface 20, has improved the convenience of user's use. Of course, in other embodiments, the input interface 20 may be disposed on the second side wall 12 between the placement opening 10b and the first side wall 11, or other positions, which will not be described herein.
Illustratively, a plurality of placement ports 10b are located on the same surface of the cabinet 10.
In a further embodiment, a cabinet door may be provided at the placement port 10b to protect the stored energy power source 200 placed within the stored energy bin 10 a. Illustratively, cabinet doors are rotatably coupled to the cabinet body 10, each for opening and closing a corresponding placement port 10b. Alternatively, the cabinet door is rotatably connected to the cabinet body 10, and the cabinet body 10 is used for opening and closing the plurality of placing ports 10b.
Referring to fig. 1 and 2, in some embodiments, each energy storage bin 10a is provided with a second side wall 12 located between the corresponding placement opening 10b and the first side wall 11, the second side wall 12 of each energy storage bin 10a is provided with a sliding rail 121, and the sliding rail 121 of each energy storage bin 10a is disposed to extend along the first direction, and the sliding rail 121 is used for guiding the energy storage power source 200 to move. The first direction is a direction from the first side wall 11 of the energy storage bin 10a to the corresponding placement opening 10b. The stored energy power supply 200 is conveniently taken and placed by a user through the sliding rail 121. In addition, the energy storage power supply 200 can be connected with the input interface 20 in the process of moving along the sliding rail 121, and the use is convenient. In other embodiments, a rail 121 may also be provided on the bottom wall of the storage bin 10 a.
In some embodiments, the second side walls 12 of each energy storage bin 10a located at two sides of the corresponding placement opening 10b are respectively provided with a sliding rail 121, and the two sliding rails 121 are respectively used for erecting lifting lugs 201 at two sides of the energy storage power supply 200 so as to guide the energy storage power supply 200 to move. It is understood that the lifting lugs 201 on both sides of the energy storage power supply 200 are generally used for lifting and carrying by a user. The two sliding rails 121 are respectively provided with lifting lugs 201 at two sides of the energy storage power supply 200, so that stable placement and stable movement of the energy storage power supply 200 can be ensured. In other embodiments, the two sliding rails 121 may be other structures for mounting the two sides of the energy storage power source 200.
Illustratively, the sliding rail 121 is provided with a sliding groove 121a disposed along the first direction, and the lifting lug 201 of the energy storage power source 200 is disposed in the sliding groove 121 a.
Illustratively, the two rails 121 within each energy storage compartment 10a are positioned at the same height of the energy storage compartment 10a to smoothly place the energy storage power supply 200.
Referring to fig. 1, 3 and 4, in some embodiments, the energy storage cabinet further includes at least one driving structure 30, where the at least one driving structure 30 is disposed on the cabinet body 10, each driving structure 30 corresponds to a plurality of energy storage bins 10a, and the driving structure 30 is used to drive the energy storage power supply 200 to move back and forth along the first direction, so that an output end of the energy storage power supply 200 is connected to or separated from the input interface 20 corresponding to the energy storage bin 10 a. The first direction is a direction from the first side wall 11 of the energy storage bin 10a to the corresponding placement opening 10b. Thus, the plurality of energy storage power sources 200 can be simultaneously driven to move by one driving structure 30 so as to simultaneously move out of the plurality of energy storage power sources 200 or simultaneously switch in the plurality of energy storage power sources 200.
Illustratively, one drive structure 30 is provided, one drive structure 30 corresponding to each of the energy storage bins 10a, to drive the energy storage power sources 200 of all of the energy storage bins 10a back and forth in the first direction.
Illustratively, a plurality of drive structures 30 are provided, each drive structure 30 corresponding to a portion of the energy storage cartridge 10a, to simultaneously drive the energy storage power supply 200 of the portion of the energy storage cartridge 10a back and forth in the first direction.
Referring to fig. 1, 3 and 4, in some embodiments, each driving structure 30 includes a driving motor 31, a linkage shaft 32 and a plurality of rotation shafts 33, the driving motor 31 of each driving structure 30 is connected to the linkage shaft 32, the linkage shaft 32 of each driving structure 30 is in transmission connection with the plurality of rotation shafts 33, the plurality of rotation shafts 33 of each driving structure 30 are penetrated through the plurality of energy storage bins 10a, the plurality of rotation shafts 33 of each driving structure 30 are arranged at intervals along the first direction, a plurality of rollers 331 are arranged on each rotation shaft 33, the rollers 331 are used for dragging the bottom of the energy storage power supply 200, and the driving motor 31 of each driving structure 30 drives the plurality of rotation shafts 33 to rotate so as to drag the energy storage power supply 200 in the plurality of energy storage bins 10a to move through the rollers 331. In this way, in each driving structure 30, the rotation shafts 33 in the plurality of energy storage bins can be simultaneously driven to rotate by the driving motor 31 to smoothly move the energy storage power sources 200 in the plurality of energy storage bins 10 a. So that the efficiency of the removal and the removal of the energy storage power supply 200 can be improved, and it is smooth and convenient.
Illustratively, the plurality of rotational shafts 33 of each drive structure 30 are disposed at uniform intervals along the first direction.
Illustratively, the linkage shaft 32 extends along the first direction, a plurality of first transmission gears 32 are disposed on the linkage shaft 32, a second transmission gear 332 is disposed at an end of each rotation shaft 33, each of the plurality of first transmission gears 32 of each driving structure 30 is respectively engaged with each of the plurality of second transmission gears 332, and when the motor drives the linkage shaft 32 to rotate, the plurality of rotation shafts 33 are driven to rotate in the same direction and at the same speed, so as to drive the energy storage power supply 200 in the plurality of energy storage bins 10a to move.
In other embodiments, the rotating shaft 33 in the drive structure 30 may also be replaced with a conveyor belt.
In some embodiments, the energy storage cabinet further includes a control end, where the control end is connected to each driving structure 30, and the control end can control the forward and reverse rotation of the driving motor 31 of each driving structure 30 to control the movement in or out of the energy storage power supply 200. Illustratively, the control end is provided on the cabinet 10.
Referring to fig. 1 and 2, in some embodiments, a plurality of energy storage bins 10a are arranged along a horizontal-vertical array, each driving structure 30 corresponds to the plurality of energy storage bins 10a of each horizontal row, and a plurality of rotating shafts 33 of each driving structure 30 are disposed through the plurality of energy storage bins 10a of each horizontal row, so as to drive the energy storage power supply 200 of the plurality of energy storage bins 10a of each horizontal row to move back and forth along the first direction.
Illustratively, 9 energy storage bins 10a are provided, nine energy storage bins 10a are arranged in a 3 by 3 horizontal-vertical array, 3 drive structures 30 are provided, and each drive structure 30 corresponds to every 3 energy storage bins 10a arranged horizontally.
Of course, in other embodiments, each drive structure 30 corresponds to each energy storage cartridge 10a, and each drive structure 30 is configured to individually drive the energy storage power supply 200 of the corresponding energy storage cartridge 10a back and forth in the first direction.
Referring to fig. 5 and 6, in some embodiments, each input interface 20 includes a support structure 21 and an interface structure 22, the support structure 21 of each input interface 20 is disposed on a side wall of the corresponding energy storage bin 10a, and the interface structure 22 of each input interface 20 is movably disposed on the support structure 21 to adjust a position of the interface structure 22 relative to the support structure 21 and align with an output end of the energy storage power source 200. In this way, even if there is a positional shift of the energy storage power supply 200 moved in the energy storage compartment 10a, it is possible to ensure that the output end of the energy storage power supply 200 is stably abutted against the interface structure 22.
Illustratively, the support structure 21 is provided to the first side wall 11 of the corresponding energy storage bin 10 a. Docking with the interface structure 22 may be accomplished directly when the stored energy power source 200 is placed within the stored energy compartment 10a in a first orientation.
Referring to fig. 5 and 6, in some embodiments, in each input interface 20, the support structure 21 includes an interface base 211 and at least one first support rod 212, the interface base 211 is disposed on a sidewall of the corresponding energy storage bin 10a, two ends of the first support rod 212 are connected to the interface base 211, and the interface structure 22 is movably disposed on the first support rod 212, so that the interface structure 22 moves along an extending direction of the first support rod 212 to achieve fine adjustment of a position of the interface structure 22, and is abutted to an output end of the energy storage power source 200.
Illustratively, the support structure 21 of each input interface 20 includes two first support rods 212, and the interface structure 22 is movably disposed on the two first support rods 212.
Illustratively, the first support bars 212 extend in a direction from the top wall to the bottom wall of the corresponding energy storage bin 10 a.
Illustratively, the first support bar 212 is disposed along the extension of the second side wall 12 of the corresponding energy storage bin 10a to the other second side wall 12.
Referring to fig. 5 and 6, in some embodiments, the first support rod 212 is disposed at two sides of the interface structure 22, and second reset members 213 are disposed at two sides of the interface structure 22, and the second reset members 213 respectively support the interface base 211 and the interface structure 22, so that the interface structure 22 can be maintained in the middle of the first support rod 212 under the action of no external force, so as to be conveniently connected to the output end of the energy storage power source 200. The second restoring member 213 is illustratively a spring.
In some other embodiments, in each input interface 20, the support structure 21 includes an interface base 211, a second support rod and a third support rod, the interface base 211 is disposed on a sidewall of the corresponding energy storage bin 10a, two ends of the third support rod are connected to the interface base, the second support rod is movably disposed on the third support rod, and the interface structure 22 is movably disposed on the second support rod, so that the second support rod moves along an extension direction of the third support rod, and the interface structure 22 moves along an extension direction of the second support rod. Wherein, the extending direction of the second supporting rod is perpendicular to the extending direction of the third supporting rod or forms an included angle. To achieve fine-tuning of the position of the interface structure 22 in multiple directions.
Of course, in other embodiments, in each input interface 20, the input interface 20 includes an interface structure 22, and the interface structure 22 is fixedly connected to a sidewall of the corresponding energy storage bin 10 a.
Referring to fig. 5 and 6, in some embodiments, in each input interface 20, the interface structure 22 includes an interface end 221 and an alignment cover 222, the alignment cover 222 is movably disposed on an outer periphery of the interface end 221, the alignment cover 222 is movable to enclose the interface end 221 or to make the interface end 221 protrude from the alignment cover 222, an end of the alignment cover 222 away from the support structure 21 is provided with an alignment member 2221, and the alignment member 2221 is used for aligning with a side of an output end of the energy storage power source 200. The alignment cover 222 can protect the interface 221 on one hand, and can ensure accurate butt joint between the interface 221 and the output end of the energy storage power supply 200 through alignment of the alignment member 2221 and the output end of the energy storage power supply 200 on the other hand. Thus, in the use process, when the energy storage power supply 200 is moved to approach the input interface 20, after the alignment element 2221 is aligned beside the output end of the energy storage power supply 200, the alignment cover 222 exposes the interface end 221 under the pushing of the energy storage power supply 200, and the interface end 221 is abutted to the output end of the energy storage power supply 200. In this way, the energy storage power supply 200 is connected with the input interface 20 and then is connected stably. Of course, the alignment cover 222 may not be provided as needed.
Illustratively, the alignment cover 222 is movably disposed along the first direction on the outer periphery of the interface end 221.
Illustratively, the interface 221 is a male connector, and the output of the energy storage power supply 200 is a female connector.
Illustratively, the interface end 221 is electrically connected to the output interface by a wire passing through the interface base 211 and into the cabinet 10.
In some embodiments, the alignment member 2221 is a magnetic attraction member, and the alignment member 2221 is used for being magnetically attracted to and connected with the output end of the energy storage power supply 200. Thus, in the use process, when the energy storage power supply 200 is moved to approach the input interface 20, the alignment member 2221 will magnetically attract the output end of the energy storage power supply 200, so as to drive the interface structure 22 to fine tune, and after the magnetic attraction member magnetically attracts the output end of the energy storage power supply 200, the alignment cover 222 exposes the interface 221 under the pushing of the energy storage power supply 200, and the interface 221 is abutted to the output end of the energy storage power supply 200. The automatic butt joint is convenient to use, and the energy storage power supply 200 is connected with the input interface 20 and then is connected stably.
In some other embodiments, the alignment member 2221 may also be a card bar to locate in a card slot beside the energy storage power source 200.
Referring to fig. 5 and 6, in some embodiments, a first reset member 223 is disposed between the interface 221 and the alignment cover 222, so that the alignment cover 222 tends to surround the interface 221. Thus, when the energy storage power supply 200 is not placed, the interface 221 is not exposed to the outside, and the alignment cover 222 protects the interface 221.
Illustratively, the first restoring member 223 is a spring. The interface end 221 is provided with a guide rod 2211, the guide rod 2211 is arranged through the alignment cover 222, the first reset piece 223 is sleeved with the guide rod 2211, one end of the first reset piece 223 abuts against the protruding portion of the interface end 221, and the other end abuts against the alignment cover 222.
Illustratively, a first reset member 223 is disposed between two sides of the interface 221 and two sides of the alignment cover 222.
In some embodiments, the output interface may be an interface socket provided on the cabinet 10, or may be an interface device extending from the cabinet 10 through a wire from the cabinet 10. Output interfaces include, but are not limited to, USB interfaces, DC output interfaces, AC output interfaces.
In some embodiments, the output of the stored energy power source 200 includes an output connected to the input interface 20. In addition, but not limited to, USB interface, DC output interface, AC output interface. So that the load devices can be individually powered when the stored energy power source 200 is used alone.
In some embodiments, the energy storage cabinet further includes a power source interface and a plurality of power supply interfaces, each power supply interface of the plurality of power supply interfaces is respectively provided in each energy storage bin 10a of the plurality of energy storage bins 10a, the power supply interface is used for being connected with an input end of the energy storage power source 200, the power supply interface is provided on the cabinet body 10 and is used for being connected with a power source, and the plurality of power supply interfaces are all electrically connected with the power source interface. When the energy storage power supply 200 is placed in the energy storage bin 10a, the input end of the energy storage power supply 200 can be connected with a power supply interface so as to charge the energy storage power supply 200 placed in the energy storage cabinet. After the charging is completed, the load equipment can be powered in the energy storage bin 10a, and the energy storage power supply 200 can be taken out to independently power the load equipment.
In some embodiments, the power supply interface is configured identically to the output interface and is located on the same side of the energy storage compartment 10a so that the power supply interface is also connected to the input of the energy storage power supply 200 at the same time that the output interface is connected to the output of the energy storage power supply 200. For example, the power supply interface may refer to the configuration of the output interface described above.
The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the specification and drawings of the present utility model or direct/indirect application in other related technical fields are included in the scope of the present utility model.