CN217240383U - Shared mobile power supply charging cabinet - Google Patents

Abstract

The utility model provides a shared mobile power supply charging cabinet, which comprises a front shell, a rear shell, two end cover plates and at least one shared mobile power supply locking device, the front shell and the rear shell are both of box body structures, a plurality of mobile power supply connecting pipes are vertically arranged in the front shell, the portable power supply locking device comprises a front shell, a rear shell, a plurality of sharing portable power supply locking devices, two end cover plates, at least one sharing portable power supply locking device, a power supply input end of a charging PCB board of the sharing portable power supply locking device and an external power supply output end of the charging PCB board of the sharing portable power supply locking device. The utility model discloses simple structure, convenient dismantlement, it is with low costs.

Description

Shared mobile power supply charging cabinet

Technical Field

The utility model relates to a sharing portable power source cabinet that charges.

Background

Along with the popularization of smart phones, tablet computers and related mobile electronic products, mobile equipment develops rapidly, functions of the mobile equipment are diversified more and more, the demand for electric quantity of the mobile equipment is increased increasingly while the functions are diversified, the battery endurance of the mobile equipment cannot be improved greatly all the time, and the power failure of the mobile equipment becomes a trouble of many people in a critical time. In order to solve the problem of insufficient electric quantity, the mobile power supply is widely applied to mobile phones, tablet computers and related electronic products, but sometimes the mobile power supply is forgotten to be taken or used up, and in order to meet the requirements of customers, the shared mobile power supply appears, and the customers only need to pay for renting. In order to make things convenient for the customer to take, generally can place shared portable power source in charging the cabinet, the cabinet that charges simultaneously can also give shared portable power source additional electric quantity. How to design a charging cabinet for the convenience of customers becomes a current research topic.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a simple structure, convenient dismantlement, with low costs sharing portable power source cabinet that charges.

The utility model discloses a following scheme realizes:

a shared mobile power supply charging cabinet comprises a front shell, a rear shell, two end cover plates and at least one shared mobile power supply locking device, wherein the front shell and the rear shell are of a box body structure, a plurality of mobile power supply connecting pipes are vertically arranged in the front shell (the mobile power supply connecting pipes and the front shell are of an integral structure), a plurality of through holes which are communicated with the mobile power supply connecting pipes in a one-to-one correspondence mode are formed in the bottom of the front shell, the shared mobile power supply locking device comprises a fixed seat, a plurality of locking arms, a plurality of electromagnets and a plurality of locking blocks, more than one mobile power supply accommodating cavity is respectively arranged on the left side and the right side of the top of the fixed seat, the number of the locking arms, the electromagnets and the locking blocks is the same as that of the mobile power supply accommodating cavities of the fixed seat, and locking block through holes communicated with the corresponding mobile power supply accommodating cavities are respectively formed in positions, close to the bottom of the fixed seat, of two side faces of the fixed seat, the bottom of the fixing seat is provided with a charging PCB which is used for independently charging the mobile power supply in each mobile power supply accommodating cavity, the bottom of each mobile power supply accommodating cavity is vertically provided with a thimble which can extend into the mobile power supply accommodating cavity to push the corresponding mobile power supply to move upwards, the outward end part of the thimble extends out of the charging PCB, the locking arms are integrally L-shaped, a plurality of locking arms are respectively arranged on two side surfaces of the fixing seat, the horizontal parts of the locking arms are just opposite to the bottom of the fixing seat, one locking arm corresponds to one mobile power supply accommodating cavity, each locking arm can rotate towards the direction close to or far away from the mobile power supply accommodating cavity, a plurality of locking blocks are correspondingly arranged at the upper ends of the vertical parts of the locking arms one by one and are matched and clamped in the corresponding locking block through holes to lock the corresponding mobile power supply, the electromagnets are installed on the bottom of the fixed seat, movable push rods of the electromagnets are in one-to-one opposite contact with the horizontal parts of the locking arms, and the electromagnets are used for pushing the horizontal parts of the locking arms to move towards the direction close to the mobile power supply accommodating cavity; the front shell and the rear shell are matched and combined together to form a shared mobile power supply locking device installation space, the two end cover plates are fixed at two ends of the front shell and the rear shell which are combined together respectively, at least one shared mobile power supply locking device is installed in the shared mobile power supply locking device installation space, a mobile power supply cavity of the shared mobile power supply locking device is communicated with a mobile power supply connecting pipe of the front shell in a one-to-one correspondence mode, and a power supply input end of a charging PCB of the at least one shared mobile power supply locking device is connected with an external power supply output end. Specifically, be provided with a plurality of charging circuit on every sharing portable power source locking device's the PCB board that charges, a plurality of charging circuit's input connects in parallel and forms power input end, and power input end is used for being connected with the external power supply output, and a plurality of charging circuit's output is connected with the portable power source's in a plurality of portable power source holds the intracavity input one-to-one, so can realize charging the PCB board and charge alone to the portable power source of every portable power source appearance intracavity. In actual manufacturing, in order to facilitate connection, a power panel can be arranged in the rear shell, the power input ends of the charging PCBs of at least one sharing mobile power supply locking device are connected in parallel, the power input end of the charging PCB of one sharing mobile power supply locking device is connected with the power output end of the power panel, the power input end of the charging PCB of at least one sharing mobile power supply locking device is connected with the external power output end, a power plug is arranged on the power input end of the power panel and exposed out of the rear shell, and the power plug is inserted into an external power socket during use.

Furthermore, more than one mobile power supply accommodating cavities of the fixing seat, which are located on the same side, are arranged in parallel from the front side to the rear side of the fixing seat.

Furthermore, the mobile power supply cavities on the left side and the right side of the fixing seat are symmetrically arranged.

Furthermore, the bottom of the fixing seat is provided with an electromagnet fixing support, an electromagnet mounting support is mounted on the electromagnet fixing support, and the electromagnet is mounted in the electromagnet mounting support.

Furthermore, the locking device further comprises a plurality of reset tension springs, one ends of the reset tension springs are fixed on the horizontal parts of the locking arms in a one-to-one correspondence mode, and the other ends of the reset tension springs are fixed on the corresponding electromagnet mounting supports respectively.

Furthermore, the upper end of the vertical part of the locking arm is of a U-shaped through groove structure, and the locking block is arranged in the U-shaped through groove at the upper end of the vertical part of the locking arm.

Furthermore, symmetrical cylinders are respectively arranged on two side faces of the locking block, and the locking block is fixedly installed in the U-shaped through groove in the upper end of the vertical portion of the locking arm through the cylinders.

Furthermore, in order to limit the moving range of the locking block, the locking block is clamped in the locking block fixing support, the locking block can slide in the locking block fixing support towards the direction close to or far away from the movable power supply accommodating cavity, and the locking block fixing support is installed on the corresponding side face of the fixing base.

Furthermore, a plurality of locking arm mounting brackets are arranged on two side faces of the fixing seat, and each locking arm is mounted on each locking arm mounting bracket through a pin.

Furthermore, a plurality of photoelectric switches are arranged on the charging PCB, each photoelectric switch is of a U-shaped through groove structure, a cross rod perpendicular to the horizontal portion is arranged on the horizontal portion of each locking arm, the two ends of the cross rod extend out of the horizontal portion of each locking arm, the extending portion of one end of the cross rod of each locking arm is opposite to each corresponding photoelectric switch, and when the horizontal portion of each locking arm moves towards the direction close to the cavity of the mobile power supply, the extending portion of one end of the cross rod of each locking arm is matched and clamped in the photoelectric switch. During actual manufacturing, the arrangement position of the cross rod on each locking arm can be adjusted and designed according to needs, so that the protruding part at one end of the cross rod can be matched and clamped in the photoelectric switch.

The utility model discloses a sharing portable power source cabinet that charges, simple structure, convenient dismantlement, saving development cost that can be by a wide margin shortens development cycle, and the sharing portable power source locking device of its use has a plurality of portable power source and holds the chamber, can once only place a plurality of portable power sources, and convenient to use makes things convenient for portable power source to take out and pack into, safe and reliable, and the error rate is low, has set up photoelectric switch moreover, can play portable power source theftproof function.

Drawings

Fig. 1 is an exploded schematic view of a charging cabinet of a shared mobile power supply in embodiment 1;

fig. 2 is a schematic structural diagram of the shared mobile power supply locking device in embodiment 1;

fig. 3 is an exploded schematic view of the shared mobile power supply locking device in embodiment 1;

fig. 4 is a schematic structural view of the lock arm in embodiment 1.

Detailed Description

The embodiment is only for illustrating one implementation of the present invention, and is not to be taken as a limiting illustration of the protection scope of the present invention.

Example 1

A shared mobile power supply charging cabinet is shown in figure 1 and comprises a front shell 1, a rear shell 2, two end cover plates 3 and two shared mobile power supply locking devices 4, wherein the front shell 1 and the rear shell 2 are both of a box structure, twelve mobile power supply connecting pipes 101 are vertically arranged in the front shell 1 (the mobile power supply connecting pipes and the front shell are of an integral structure), twelve through holes (the through holes are not shown in the figure) which are communicated with the mobile power supply connecting pipes 101 in a one-to-one correspondence mode are formed in the bottom of the front shell 1, a power panel (the power panel is not shown in the figure) is arranged in the rear shell 2, a power plug is arranged on a power supply input end of the power panel, and the power plug is exposed out of the rear shell;

as shown in fig. 2 and 3 (fig. 2 and 3 are schematic diagrams of the shared mobile power locking device 4 in which the bottom of the fixed base 401 is placed upward), the shared mobile power locking device 4 includes a fixed base 401, six locking arms 402, six electromagnets 403, six locking blocks 404 and six return tension springs 405, six mobile power receiving cavities 406 are respectively disposed on the left and right sides of the top of the fixed base 401, the six mobile power receiving cavities 406 on the same side of the fixed base 401 are disposed in parallel with each other from the front side to the rear side of the fixed base 401, and the mobile power receiving cavities 406 on the left and right sides of the fixed base 401 are symmetrically disposed, locking block through holes 407 communicated with the respective mobile power receiving cavities 406 are respectively disposed on two side surfaces of the fixed base 401 near the bottom of the fixed base 401, six locking arm mounting brackets 408 are disposed on two side surfaces of the fixed base 401, a charging PCB 409 is disposed on the bottom of the fixed base 401, the charging PCB 409 is used for realizing individual charging of the mobile power supplies in each mobile power supply cavity 406, specifically, six charging circuits are arranged on the charging PCB 409, input ends of the six charging circuits are respectively connected with output ends of the power supplies, and output ends of the six charging circuits are connected with input ends of the mobile power supplies in the six mobile power supply cavities 406 in a one-to-one correspondence manner; six photoelectric switches 410 are arranged on the charging PCB 409, each photoelectric switch 410 is of a U-shaped through groove structure, an electromagnet fixing support 411 is arranged at the bottom of the fixing seat 401, an electromagnet mounting support 412 is mounted on each electromagnet fixing support 411, a thimble 413 is vertically arranged at the bottom of each mobile power supply accommodating cavity 406 and can extend into each mobile power supply accommodating cavity 406 to push the corresponding mobile power supply to move upwards, an outward end portion of the thimble 413 extends out of the charging PCB 409, one end of the thimble 413 extending out of the charging PCB is mounted on each electromagnet mounting support 412, as shown in fig. 4, the locking arm 402 is integrally of an L shape, the upper end of a vertical portion of the locking arm 402 is of a U-shaped through groove structure, a cross rod 414 perpendicular to the horizontal portion is arranged on a horizontal portion of each locking arm 402, two ends of the cross rod 414 extend out of the horizontal portion of the locking arm 402, the six locking arms 402 are respectively mounted on the six locking arm mounting supports 408 on two side faces of the fixing seat 401 through pins 415 one-to one, and the locking arms 402 are locked one The horizontal part of the arm 402 faces the bottom of the fixed seat 401, the extending part of one end of the cross bar 414 of each locking arm 402 faces each corresponding photoelectric switch 410, when the horizontal part of the locking arm 402 moves towards the direction close to the mobile power supply cavity 406, the extending part of one end of the cross bar 414 of the locking arm 402 is clamped in the photoelectric switch 410 in a matching way, one locking arm 402 corresponds to one mobile power supply cavity 406, each locking arm 402 can rotate around a pin 415 towards the direction close to or far away from the mobile power supply cavity 406, two side surfaces of the locking block 404 are respectively provided with symmetrical cylinders 416, six locking blocks 404 are respectively clamped in corresponding locking block fixing brackets 417 and are respectively arranged in U-shaped through grooves at the upper ends of the vertical parts of the six locking arms 402 in a one-to-one correspondence way through the cylinders 416, and each locking block 404 is matched in a corresponding locking block through hole 407 to realize locking of the corresponding mobile power supply, the locking block 404 can slide in a locking block fixing support 417 towards a direction close to or far away from the mobile power supply cavity, the locking block fixing support 417 is installed on the corresponding side face of the fixed seat 401, six electromagnets 403 are installed in the electromagnet installation support 412, so that the electromagnets 403 are installed on the bottom of the fixed seat 401, the movable push rods of the electromagnets 403 are in one-to-one opposite contact with the horizontal parts of the locking arms 402, the electromagnets 403 are used for pushing the horizontal parts of the locking arms 402 to move towards a direction close to the mobile power supply cavity 406, one ends of six reset tension springs 405 are fixed on the horizontal parts of the six locking arms 402 in one-to-one correspondence, and the other ends of the six reset tension springs 406 are respectively fixed on the corresponding electromagnet installation supports 412;

as shown in fig. 1, the front shell 1 and the rear shell 2 are matched and combined together to form a shared mobile power supply locking device installation space, the two end cover plates 3 are respectively fixed at two ends of the front shell 1 and the rear shell 2 which are combined together, the two shared mobile power supply locking devices 4 are installed in the shared mobile power supply locking device installation space, the mobile power supply cavities 406 of the shared mobile power supply locking devices 4 are correspondingly communicated with the mobile power supply connecting pipes 11 of the front shell 1 one by one, the power supply input ends of the charging PCB 409 of the two shared mobile power supply locking devices 4 are connected together in parallel, the power supply input end of the charging PCB 409 of one of the shared mobile power supply locking devices 4 is connected with the power supply output end of the power supply, and thus, the power supply input ends of the charging PCBs of the two shared mobile power supply locking devices are connected with the external power supply output end.

When portable power source (the treasured that charges promptly) is taken out to needs, the electro-magnet circular telegram, the movable push rod of electro-magnet promotes the horizontal part of locking arm and removes towards the direction that is close to portable power source appearance chamber, make the locking arm rotate around the pin, the extension spring that resets this moment is in tensile state by the horizontal part pulling of locking arm, the horizontal pole of locking arm is supporting to be clamped in photoelectric switch, the locking piece slides along with the locking arm rotation towards the direction of keeping away from portable power source appearance chamber simultaneously, the locking piece does not lock portable power source and holds the corresponding portable power source (the treasured that charges promptly) in the chamber this moment, thereby reach portable power source unblock purpose, later, promote the thimble upwards and can release portable power source (the treasured that charges promptly) from portable power source appearance intracavity, later release the thimble, the thimble returns. After portable power source (the treasured that charges promptly) inserts portable power source through the perforation of preceding shell and holds the chamber return through the portable power source connecting pipe, the electro-magnet outage playback, the horizontal part of locking arm loses the motive force, under the effect of extension spring that resets, the horizontal part of locking arm removes towards the direction of keeping away from portable power source and holding the chamber, whole locking arm rotates around the pin, the locking piece slides towards the direction that is close to portable power source and holds the chamber along with the locking arm rotation this moment, the locking piece clamps and realizes the corresponding portable power source of locking in the locking piece is perforated. If portable power source (the treasured that charges does not insert and target in place, the locking piece fails to clamp completely in the locking piece perforation, explains that portable power source is not locked, and the horizontal pole on the locking arm stays in photoelectric switch always this moment, and the locking arm does not return to target in place, and photoelectric switch sends alarm signal to the host computer this moment, judges that portable power source returns unusually. When the shared mobile power supply needs to supplement electric quantity, the power plug of the shared mobile power supply charging cabinet is plugged into the external power socket, so that the power-on is completed, and the charging PCB can charge the corresponding shared mobile power supply.

Example 2

A shared mobile power supply charging cabinet, which has a structure similar to that of the shared mobile power supply charging cabinet in embodiment 1, and the difference is that: the number of the shared mobile power supply locking devices is one, and the number of the mobile power supply cavities of the shared mobile power supply locking devices is eight.

Claims (10)

1. The utility model provides a sharing portable power source cabinet that charges which characterized in that: the portable power supply locking device comprises a front shell, a rear shell, two end cover plates and at least one shared portable power supply locking device, wherein the front shell and the rear shell are of box body structures, a plurality of portable power supply connecting pipes are vertically arranged in the front shell, a plurality of through holes communicated with the portable power supply connecting pipes in a one-to-one correspondence mode are formed in the bottom of the front shell, the shared portable power supply locking device comprises a fixed seat, a plurality of locking arms, a plurality of electromagnets and a plurality of locking blocks, more than one portable power supply accommodating cavity is respectively formed in the left side and the right side of the top of the fixed seat, the number of the locking arms, the electromagnets and the locking blocks is the same as that of the portable power supply accommodating cavities of the fixed seat, locking block through holes communicated with the corresponding portable power supply accommodating cavities are respectively formed in the positions, close to the bottom of the fixed seat, of the bottom of the fixed seat, a charging PCB is arranged on the bottom of the fixed seat, the charging PCB board is used for independently charging the mobile power supply in each mobile power supply accommodating cavity, the bottom of each mobile power supply accommodating cavity is vertically provided with a thimble, the thimble can extend into the mobile power supply accommodating cavity to push the corresponding mobile power supply to move upwards, the outward end part of the thimble extends out of the charging PCB board, the locking arms are integrally L-shaped, a plurality of locking arms are respectively arranged on two side surfaces of the fixed seat, the horizontal parts of the locking arms are opposite to the bottom of the fixed seat, one locking arm corresponds to one mobile power supply accommodating cavity, each locking arm can rotate towards the direction close to or far away from the mobile power supply accommodating cavity, a plurality of locking blocks are correspondingly arranged at the upper ends of the vertical parts of the locking arms one by one, the locking blocks are matched and clamped in the corresponding locking block through holes to realize locking of the corresponding mobile power supply, a plurality of electromagnets are arranged on the bottom of the fixed seat, and the movable push rods of the electromagnets are opposite to the horizontal parts of the locking arms one by one, the electromagnet is used for pushing the horizontal part of the locking arm to move towards the direction close to the mobile power supply cavity; the front shell and the rear shell are matched and combined together to form a shared mobile power supply locking device installation space, the two end cover plates are fixed at two ends of the front shell and the rear shell which are combined together respectively, at least one shared mobile power supply locking device is installed in the shared mobile power supply locking device installation space, a mobile power supply cavity of the shared mobile power supply locking device is communicated with a mobile power supply connecting pipe of the front shell in a one-to-one correspondence mode, and a power supply input end of a charging PCB of the at least one shared mobile power supply locking device is connected with an external power supply output end.

2. The shared mobile power charging cabinet of claim 1, wherein: more than one mobile power supply accommodating cavities which are positioned on the same side of the fixing seat are arranged in parallel from the front side to the rear side of the fixing seat.

3. The shared mobile power charging cabinet of claim 2, wherein: the mobile power supply cavities on the left side and the right side of the fixing seat are symmetrically arranged.

4. The shared mobile power charging cabinet of claim 3, wherein: the bottom of fixing base is provided with the electro-magnet fixed bolster, install the electro-magnet installing support on the electro-magnet fixed bolster, the electro-magnet is installed in the electro-magnet installing support.

5. The shared mobile power charging cabinet of claim 4, wherein: the locking arm is characterized by further comprising a plurality of reset tension springs, one ends of the reset tension springs are fixed on the horizontal parts of the locking arms in a one-to-one correspondence mode, and the other ends of the reset tension springs are fixed on the corresponding electromagnet mounting supports respectively.

6. The shared mobile power charging cabinet of claim 4, wherein: the upper end of the vertical part of the locking arm is of a U-shaped through groove structure, and the locking block is arranged in the U-shaped through groove at the upper end of the vertical part of the locking arm.

7. The shared mobile power charging cabinet of claim 6, wherein: symmetrical cylinders are respectively arranged on two side faces of the locking block, and the locking block is fixedly arranged in a U-shaped through groove in the upper end of the vertical portion of the locking arm through the cylinders.

8. The shared mobile power charging cabinet of claim 7, wherein: the locking piece clamps in locking piece fixed bolster and the locking piece can slide in locking piece fixed bolster towards the direction that is close to or keeps away from portable power source appearance chamber, locking piece fixed bolster is installed on the corresponding side of fixing base.

9. The charging cabinet for the shared mobile power supply of any one of claims 1 to 8, wherein: and a plurality of locking arm mounting brackets are arranged on two side surfaces of the fixing seat, and each locking arm is mounted on each locking arm mounting bracket through a pin.

10. The charging cabinet for the shared mobile power supply of any one of claims 1 to 8, wherein: the charging PCB is provided with a plurality of photoelectric switches, each photoelectric switch is of a U-shaped through groove structure, each horizontal portion of each locking arm is provided with a cross bar perpendicular to the horizontal portion, and the two ends of the cross bar extend out of the horizontal portion of each locking arm, the extending portion of one end of the cross bar of each locking arm is opposite to each corresponding photoelectric switch, and when the horizontal portion of each locking arm moves towards the direction close to the cavity of the mobile power supply, the extending portion of one end of the cross bar of each locking arm is matched and clamped in the photoelectric switch.

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