CN216211317U - Shared power supply lease cabinet - Google Patents

Abstract

The utility model relates to a shared power supply renting cabinet, which comprises a housin, dustproof spare and drive mechanism, there is the storehouse that holds of shared power supply in the casing, the one end that holds the storehouse has the opening that supplies shared power supply male, dustproof spare rotationally installs in the casing, and be used for sheltering from or exposing the opening, drive mechanism's one end movably stretches into and holds in the storehouse and be used for contacting with shared power supply, drive mechanism's the other end is connected with dustproof spare, drive mechanism is used for turning into the plug-in force when inserting shared power supply and holding the storehouse and drives the dustproof spare and rotate and cover open-ended revolving force. Through the technical scheme, the insertion force of the user when returning the shared power supply can be converted into the rotating force for driving the dust-proof part to be closed through the transmission mechanism, the dust-proof part can be automatically closed when the user returns the shared power supply, the dust-proof part is not required to be independently operated by the user to be closed, and the dust-proof effect of the containing bin of the shared power supply rental cabinet is effectively guaranteed.

Description

Shared power supply lease cabinet

Technical Field

The disclosure relates to the field of shared power supply leasing, in particular to a shared power supply leasing cabinet.

Background

Along with the development of modern communication technology, the popularity of the intelligent mobile equipment is greatly improved, but the power supply carried by the existing intelligent mobile equipment is not enough to support a user to use for a long time, the existing charging equipment often has a longer charging wire or a larger charging head, and is very inconvenient to carry.

However, since the shared power rental cabinet is usually placed in an open air environment, dust, rain, and the like in the air can easily enter the shared power accommodating compartment of the shared power rental cabinet, which may cause the situation that the shared power is locked or difficult to take when the user takes or returns the shared power next time. In the prior art, a baffle is arranged at an opening of a shared power supply accommodating bin of some shared power supply rental cabinets, but when the baffle is closed, a user needs to manually close the baffle, and the condition that the opening of the shared power supply accommodating bin is exposed in an open-air environment due to the fact that the user does not close the baffle often occurs.

SUMMERY OF THE UTILITY MODEL

The purpose of the present disclosure is to provide a shared power rental cabinet, which is used to solve the technical problems in the related art.

In order to achieve the above object, the present disclosure provides a dust-proof structure of a shared power supply cabinet, including a housing, a dust-proof member, and a transmission mechanism, where a storage bin for storing a shared power supply is provided in the housing, one end of the storage bin is provided with an opening for inserting the shared power supply, the dust-proof member is rotatably mounted on the housing and used for shielding or exposing the opening, one end of the transmission mechanism movably extends into the storage bin and is used for contacting with the shared power supply, the other end of the transmission mechanism is connected with the dust-proof member, and the transmission mechanism is used for converting an insertion force when the shared power supply is inserted into the storage bin into a rotation force for driving the dust-proof member to rotate and covering the opening.

Optionally, drive mechanism includes removal drive mechanism and rotation drive mechanism, the movably one end that stretches into of removal drive mechanism hold in the storehouse and be used for with shared power supply keeps away from the open-ended one end contact, the other end that removes drive mechanism with rotation drive mechanism's one end contact, rotation drive mechanism's the other end with the dustproof piece is connected, remove drive mechanism be used for with shared power supply inserts insertion force when holding the storehouse turns into the perpendicular to the thrust of shared power supply's direction of insertion, and promotes rotation drive mechanism rotates, so that rotation drive mechanism drive the dustproof piece rotates and covers the opening.

Optionally, the movable transmission mechanism includes a first movable assembly, a hydraulic cylinder and a second movable assembly, the hydraulic cylinder is installed in the housing, the hydraulic cylinder includes a first cylinder body extending along the insertion direction of the shared power source and a second cylinder body extending along the direction perpendicular to the insertion direction of the shared power source, the inside of the first cylinder body is communicated with the inside of the second cylinder body, one end of the first movable assembly movably extends into the accommodating bin, the other end of the first movable assembly movably extends into the first cylinder body, one end of the second movable assembly movably extends into the second cylinder body, and the other end of the second movable assembly is in contact with the rotary transmission mechanism.

Optionally, the first moving assembly includes a moving rod and a first piston rod, the first piston rod includes a first rod body and a first piston portion formed on the first rod body, the first piston portion is located in the first cylinder body, one end of the moving rod movably extends into the accommodating bin, and the other end of the moving rod is used for contacting with one end, away from the first piston portion, of the first rod body.

Optionally, a cavity is formed in the shell, the cavity is located between the accommodating bin and the first cylinder body, a plurality of guide structures are mounted on the cavity wall of the cavity, the guide structures are arranged at intervals along the circumferential direction of the moving rod, one side, away from the cavity wall of the cavity, of each guide structure abuts against the outer peripheral surface of the moving rod, a roller is arranged on the first rod body, and the roller is in rolling contact with the cavity wall of the cavity.

Optionally, one end of the first rod body, which is far away from the first piston portion, is provided with a buffer portion, and the buffer portion is used for contacting with the moving rod.

Optionally, the second moving assembly includes a second piston rod and a connecting rod, the second piston rod includes a second rod body and a second piston portion formed on the second rod body, the second piston portion is located in the second cylinder body, the second rod body includes a first section and a second section, the first section extends in a direction perpendicular to the insertion direction of the shared power source and is connected to the second piston portion, the second section extends from one end of the first section away from the second piston portion toward a direction close to the opening, and the first section and the second section form an L shape; one end of the connecting rod is connected with the end, far away from the first section, of the second section, the other end of the connecting rod faces away from the direction of the first section, extends and is in contact with the rotating transmission mechanism, and the connecting rod, the second section and the first section form a Z shape.

Optionally, it includes first commentaries on classics board and second commentaries on classics board to rotate drive mechanism, first commentaries on classics board with the second changes the board and all rotationally sets up in the casing, the one end of first commentaries on classics board with remove the drive mechanism contact, the other end of first commentaries on classics board with the one end contact of second commentaries on classics board, the second change the board the other end with the dust keeper is connected, first commentaries on classics board is used for along first direction rotation under the effect of thrust, and the drive the second change the board along with first direction opposite second direction rotates, so that the second changes the board drive the dust keeper edge first direction rotates and covers the opening.

Optionally, the dust keeper rotationally install in through the pivot the casing, the cover is equipped with the torsional spring in the pivot, the first torque arm of torsional spring with the dust keeper is connected, the second torque arm of torsional spring with the second changes the board the other end contact.

Optionally, the shared power supply rental cabinet further comprises a telescopic structure and an operating button, one end of the telescopic structure is connected with the dustproof piece, the other end of the telescopic structure is connected with the shell, the telescopic structure can drive the dustproof piece to rotate and expose the opening, and the operating button is electrically connected with the telescopic structure.

Through the technical scheme, the insertion force of the user when returning the shared power supply can be converted into the rotating force for driving the dust-proof part to close through the transmission mechanism, the automatic closing of the dust-proof part can be realized when the user returns the shared power supply, the user is not required to operate the dust-proof part to close the dust-proof part independently, the dust-proof part is prevented from losing the covering effect of the opening for accommodating the bin due to the fact that the user forgets to manually close the dust-proof part, and therefore the dust-proof effect of the accommodating bin of the shared power supply rental cabinet is effectively guaranteed.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

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 specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

fig. 1 is a partial sectional view of a shared power rental cabinet provided by an exemplary embodiment of the present disclosure.

Fig. 2 is an enlarged view at a in fig. 1.

Fig. 3 is an enlarged view at B in fig. 1.

Fig. 4 is an assembly schematic view of a dust-proof piece, an accommodating cavity and a telescopic structure of the shared power rental cabinet provided by the exemplary embodiment of the disclosure.

Fig. 5 is a front view of a shared power rental cabinet provided by an exemplary embodiment of the present disclosure.

Fig. 6 is a perspective view of a first piston rod in a shared power rental cabinet provided by an exemplary embodiment of the disclosure.

Description of the reference numerals

1-a shell; 11-a holding bin; 111-opening; 12-a cavity; 121-a guide structure; 13-a telescopic structure; 14-operating buttons; 2-dust-proof parts; 21-a rotating shaft; 22-torsion spring; 3-a first moving assembly; 31-a moving rod; 32-a first piston rod; 321-a first rod; 322-a first piston portion; 4-a hydraulic cylinder; 41-a first cylinder; 42-a second cylinder; 5-a second moving assembly; 51-a second piston rod; 52-a connecting rod; 512-a second rod body; 5121-first paragraph; 5122-second section; 513 — a second piston portion; 81-a first rotating plate; 82-a second rotating plate; 6-a roller; 7-a buffer; d1-first direction; d2-second direction; d3-insertion direction.

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

In the present disclosure, unless otherwise stated, the use of the directional words such as "up and down" refers to the up and down defined in the normal use state of the shared power rental cabinet, and specifically, the up and down can be referred to the paper direction shown in fig. 1. The use of the directional terms such as "first direction," i.e., the direction D1, refer to a counterclockwise direction as viewed in the drawing figures of FIG. 1. The use of the directional terms such as "second direction," i.e., the direction D2, refer to the clockwise direction as viewed in the drawing figures of FIG. 1. The use of an orientation word such as "insertion direction" refers to the direction of insertion of the shared power source into the receiving cavity, i.e., the direction D3 as shown in fig. 1. Terms of orientation such as "inner" and "outer" are used to refer to the inner and outer of a particular structural outline, and terms such as "first" and "first" are used merely to distinguish one element from another, and are not sequential or significant. Additionally, the directional terms used above are used merely to facilitate describing the disclosure and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and should not be construed as limiting the disclosure.

As shown in fig. 1, the present disclosure provides a shared power rental cabinet, which includes a housing 1, a dust-proof member 2 and a transmission mechanism, a housing 11 for housing a shared power is formed in the housing 1, one end of the housing 11 has an opening 111 for inserting the shared power, the dust-proof member 2 is rotatably mounted on the housing 1 and can shield or expose the opening 111, one end of the transmission mechanism movably extends into the housing 11 and is used for contacting with the shared power, the other end of the transmission mechanism is connected with the dust-proof member 2, and the transmission mechanism is configured to convert an insertion force when the shared power is inserted into the housing 11 into a rotation force for driving the dust-proof member 2 to rotate and covering the opening 111.

When the user returns the shared power supply, the user inserts the shared power supply into the accommodating bin 11 through the opening 111, in the inserting process of the shared power supply, the inserting force of the shared power supply acts on the transmission mechanism, the transmission mechanism converts the inserting force of the shared power supply into a rotating force capable of rotating the dust-proof piece 2, and the dust-proof piece 2 is automatically closed while the user returns the shared power supply.

Through the technical scheme, the insertion force of the user when returning the shared power supply can be converted into the rotating force for driving the dust-proof part 2 to be closed through the transmission mechanism, the automatic closing of the dust-proof part 2 can be realized when the user returns the shared power supply, the user is not required to independently operate the dust-proof part 2 to close the dust-proof part, and thus the situation that the dust-proof part 2 loses the covering effect on the opening 111 of the accommodating bin 11 due to the fact that the user forgets to manually close the dust-proof part 2 can be avoided, and the dust-proof effect of the accommodating bin 11 of the shared power supply rental cabinet is effectively guaranteed.

As shown in fig. 1, as an embodiment of the transmission mechanism, the transmission mechanism includes a moving transmission mechanism and a rotating transmission mechanism, one end of the moving transmission mechanism movably extends into the accommodating chamber 11 and is used for contacting with one end of the shared power supply far away from the opening 111, the other end of the moving transmission mechanism contacts with one end of the rotating transmission mechanism, the other end of the rotating transmission mechanism is connected with the dust-proof member 2, the moving transmission mechanism is used for converting an insertion force when the shared power supply is inserted into the accommodating chamber 11 into a pushing force perpendicular to an insertion direction D3 of the shared power supply and pushing the rotating transmission mechanism to rotate, so that the rotating transmission mechanism can drive the dust-proof member 2 to rotate and cover the opening 111.

In the above embodiment, the insertion force of the shared power supply is converted into the closing rotation driving force of the dust-proof piece 2 through the moving transmission mechanism and the rotating transmission mechanism, and the insertion force when the moving transmission mechanism inserts the shared power supply is converted into the direction perpendicular to the insertion direction D3 of the shared power supply, so that the transmission mechanism does not occupy a large space of the housing 1 in the insertion direction D3 of the shared power supply, and the assembly of the transmission mechanism is facilitated.

In other embodiments, the transmission mechanism may also include a first rotation transmission mechanism, a movement transmission mechanism, and a second rotation transmission mechanism arranged in sequence. Specifically, a rotating rod (i.e., a first rotation transmission mechanism) may be provided at the rear of the accommodating chamber 11, and one end of the rotating rod may protrude into the accommodating chamber 11. When the shared power supply returns, the shared power supply can push the end of the rotating rod extending into the accommodating bin 11 backwards, and the rotating rod can convert the insertion force of the shared power supply into the rotating force of the first rotating transmission mechanism. The other end of the rotating rod is provided with a movable transmission mechanism, the starting end of the movable transmission mechanism and one end of the rotating rod, which is far away from the containing bin 11, are abutted, one end of the rotating rod, which is far away from the containing bin 11, can push the movable transmission mechanism, and the rotating force of the movable transmission mechanism is converted into the pushing force of the movable transmission mechanism. Meanwhile, as the tail end of the movable transmission mechanism is provided with the second rotating transmission mechanism, the thrust of the movable transmission mechanism is converted into the rotating force of the second rotating transmission mechanism, and the second transmission mechanism drives the dustproof piece 2 to be closed, so that the insertion force when the shared power supply is returned is converted into the rotating closing force of the dustproof piece 2.

Alternatively, as shown in fig. 1 to 3, a movement transmission mechanism may be provided to include a first movement assembly 3, a hydraulic cylinder 4, and a second movement assembly 5, the hydraulic cylinder 4 being installed in the housing 1, the hydraulic cylinder 4 including a first cylinder 41 extending in an insertion direction D3 of the shared power source and a second cylinder 42 extending in a direction D3 perpendicular to the insertion direction D of the shared power source, an interior of the first cylinder 41 communicating with an interior of the second cylinder 42, one end of the first movement assembly 3 movably extending into the accommodating chamber 11, the other end of the first movement assembly 3 movably extending into the first cylinder 41, one end of the second movement assembly 5 movably extending into the second cylinder 42, the other end of the second movement assembly 5 contacting the rotation transmission mechanism.

Because the first cylinder body 41 and the second cylinder body 42 of the hydraulic cylinder 4 are perpendicular to each other, the other end of the first moving assembly 3 movably extends into the first cylinder body 41, and one end of the second moving assembly 5 movably extends into the second cylinder body 42, when the shared power supply is inserted into the accommodating chamber 11, the shared power supply pushes the first moving assembly 3 to move, so that the first moving assembly 3 pushes the liquid in the first cylinder body 41 of the hydraulic cylinder 4, and pushes the liquid in the second cylinder body 42 through the liquid in the first cylinder body 41, and further pushes the second moving assembly 5 to move along a direction perpendicular to the inserting direction of the shared power supply through the liquid in the second cylinder body 42, thereby converting the inserting force when the shared power supply is inserted into the accommodating chamber 11 into a pushing force perpendicular to the inserting direction D3 of the shared power supply.

In other embodiments, the hydraulic cylinder 4 may be replaced with a pneumatic cylinder.

Alternatively, the liquid in the hydraulic cylinder 4 may be a hydraulic medium such as a high water-based flame-retardant hydraulic liquid or a water-glycol type flame-retardant liquid. The present disclosure is not particularly limited thereto.

As shown in fig. 1 and 2, in one embodiment, the first moving assembly 3 may include a moving rod 31 and a first piston rod 32, the first piston rod 32 includes a first rod 321 and a first piston portion 322 formed on the first rod 321, the first piston portion 322 is located in the first cylinder 41, one end of the moving rod 31 movably extends into the accommodating chamber 11, and the other end of the moving rod 31 is configured to contact with an end of the first rod 321 away from the first piston portion 322.

In the above embodiment, the movable rod 31 can guide out the insertion force of the shared power supply and transmit the insertion force to the first piston rod 32, so that the insertion force of the shared power supply can be utilized, the first piston rod 32 arranged in the present disclosure can push the liquid in the hydraulic cylinder 4, and the hydraulic cylinder 4 can realize steering the pushing force.

It will be appreciated that in other embodiments the movable rod 31 and the first piston rod 32 are the same rod, i.e. the movable rod 31 and the first piston rod 32 are connected to each other or integrally formed, directly converting the insertion force of the shared power source into the input force of the hydraulic cylinder 4.

In order to stabilize the moving process of the moving rod 31 and the first piston rod 32, optionally, as shown in fig. 2, a cavity 12 is further formed in the housing 1, the cavity 12 is located between the accommodating chamber 11 and the first cylinder 41, a plurality of guide structures 121 are installed on a cavity wall of the cavity 12, the plurality of guide structures 121 are arranged at intervals along the circumferential direction of the moving rod 31, one side of each guide structure 121 away from the cavity wall of the cavity 12 abuts against the outer circumferential surface of the moving rod 31, a roller 6 is arranged on the first rod body 321, and the roller 6 is in rolling contact with the cavity wall of the cavity 12.

In the above embodiment, the guide structures 121 spaced along the circumference of the moving rod 31 in the cavity can not only guide the movement of the moving rod 31, but also improve the moving stability of the moving rod 31. In addition, the roller 6 not only can play a role in guiding the movement of the first rod 321, but also can improve the movement stability of the first rod 321, thereby improving the movement stability of the first piston rod 32.

Alternatively, the guiding structure 121 may include a connecting section and a guiding section, one end of the connecting section is fixedly connected to the inner wall of the cavity 12, the other end of the connecting section is fixedly connected to the guiding section, and the guiding section abuts against the outer surface of the moving rod 31. For the embodiment where the cross section of the moving rod 31 is circular, the contact portion of the guide section and the moving rod 31 may be configured to be arc-shaped to be more closely attached to the outer surface of the moving rod 31, and it is understood that the contact portion of the guide section and the moving rod 31 may also be configured to be flat-shaped to reduce the frictional resistance therebetween.

As shown in fig. 2 and 6, in order to increase the service life of the first piston rod 32, a buffer portion 7 is disposed at an end of the first rod 321 away from the first piston portion 322, and the buffer portion 7 is used for contacting the moving rod 31. Because the buffer portion 7 directly contacts with the moving rod 31, the buffer portion 7 can buffer the direct impact between the moving rod 31 and the first rod 321, thereby preventing the first rod 321 from being damaged under the impact of the moving rod 31 and prolonging the service life of the first rod 321.

Alternatively, the cushioning portion 7 may be made of a material having elasticity.

As an embodiment of the second moving assembly 5, as shown in fig. 1 and 3, the second moving assembly 5 may include a second piston rod 51 and a connecting rod 52, the second piston rod 51 includes a second rod 512 and a second piston portion 513 formed on the second rod 512, the second piston portion 513 is located in the second cylinder 42, the second rod 512 includes a first section 5121 and a second section 5122, the first section 5121 extends in a direction perpendicular to the insertion direction D3 of the shared power source and is connected to the second piston portion 513, the second section 5122 extends from one end of the first section 5121 away from the second piston portion 513 toward the direction close to the opening 111, and the first section 5121 and the second section 5122 form an L shape; one end of the connecting rod 52 is connected with one end of the second section 5122 far away from the first section 5121, the other end of the connecting rod 52 extends towards the direction far away from the first section 5121 and is contacted with the rotation transmission mechanism, and the connecting rod 52, the second section 5122 and the first section 5121 form a Z shape.

In the above embodiment, the first segment 5121 and the second segment 5122 form an L shape, which is beneficial to shorten the length of the rotation transmission mechanism, reduce the space required for the rotation of the rotation transmission mechanism, and further, is beneficial to reduce the volume occupied by the rotation transmission mechanism, and the second segment 5122 can avoid completely retracting into the second cylinder 42 when the second piston rod 51 retracts into the second cylinder 42. In addition, the connecting rod 52, the second section 5122 and the first section 5121 form a Z shape, and the connecting rod 52 can make up for a gap between the second section 5122 and the rotation transmission mechanism, so that the second moving assembly 5 is in contact with the rotation transmission mechanism.

In other embodiments, the second moving assembly 5 may also comprise only a straight rod, one end of which is located in the second cylinder 42, and the other end of which is in direct contact with the rotation transmission mechanism.

The rotation transmission mechanism may have various embodiments, for example, in one embodiment, as shown in fig. 1, the rotation transmission mechanism may include a first rotating plate 81 and a second rotating plate 82, the first rotating plate 81 and the second rotating plate 82 are both rotatably disposed in the housing 1, one end of the first rotating plate 81 is in contact with the movement transmission mechanism, the other end of the first rotating plate 81 is in contact with one end of the second rotating plate 82, the other end of the second rotating plate 82 is connected with the dust-proof member 2, the first rotating plate 81 can rotate in a first direction D1 under the thrust force, and the second rotating plate 82 is driven to rotate in a second direction D2 opposite to the first direction D1, so that the second rotating plate 82 can drive the dust-proof member 2 to rotate in the first direction D1 and cover the opening 111.

In the above-described technical solution, the purpose of providing the first and second rotating plates 81 and 82 in linkage is to convert the linear pushing force of the movement transmission device into the rotational force that can drive the dust-proof 2 to rotate in the first direction D1.

It is understood that the rotation transmission mechanism may also include more than two rotation plates which are linked with each other, as long as the dust-proof member 2 can be finally driven to rotate along the first direction D1 and cover the opening 111.

In other embodiments, the rotation transmission mechanism may comprise a rotation plate and a pulling rope, one end of the rotation plate is in contact with the movement transmission mechanism, the other end of the rotation plate is fixedly connected with one end of the pulling rope, and the other end of the pulling rope is connected with the dust-proof member 2, however, an additional driving device is required to be arranged on the dust-proof member 2 to always keep the dust-proof member in a tendency of covering the opening 111, and in the process, the pulling rope is always in a tense state.

Optionally, the dust-proof component 2 is rotatably mounted to the housing 1 through a rotating shaft 21, a torsion spring 22 is sleeved on the rotating shaft 21, a first torsion arm of the torsion spring 22 is connected to the dust-proof component 2, and a second torsion arm of the torsion spring 22 contacts with the other end of the second rotating plate 82. The pivot 21 in this disclosure can make the torsional spring 22 rotate on the pivot, and the torsional spring 22 can make the dust keeper 2 have the trend that resets always, and in this disclosure, the trend that resets of torsional spring 22 means: the torsion spring 22 tends to restore the dust-proof 2 to a state of covering the opening 111.

In addition, as shown in fig. 4 and 5, the shared power rental cabinet may further include a telescopic structure 13 and an operation button 14, one end of the telescopic structure 13 is connected to the dust-proof component 2, the other end of the telescopic structure 13 is connected to the housing 1, the telescopic structure 13 can drive the dust-proof component 2 to rotate and expose the opening 111, and the operation button 14 is electrically connected to the telescopic structure 13. The user can drive the telescopic structure 13 to extend by operating the operating button 14 to drive the dust-proof piece 2 to be in the opening state.

When the user returns the shared power source, the user may first press the operation button 14 to extend the telescopic structure 13 and drive the dust-proof component 2 to open and expose the opening 111, then insert the shared power source into the accommodating compartment 11 along the insertion direction D3, and while the user inserts the shared power source, the transmission mechanism drives the dust-proof component 2 to rotate and shorten the telescopic structure 13, and finally covers the opening 111 of the accommodating compartment 11.

Optionally, the telescopic structures 13 in the present disclosure may be configured to be arc-shaped, and symmetrically distributed with respect to the vertical center line of the dust-proof component 2, that is, two telescopic structures 13 are provided, the arc-shaped telescopic structures 13 may better fit to the dust-proof component 2 for rotational movement, and the two symmetrically-provided telescopic structures 13 may make the dust-proof component 2 more stable when moving.

Alternatively, the telescopic structure 13 may be any suitable telescopic structure 13, such as an electric telescopic rod, a pneumatic telescopic rod, etc.

In order to facilitate understanding of the working principle of the shared power rental cabinet provided by the present disclosure, the working principle of the shared power rental cabinet will be described in detail by taking the embodiment shown in fig. 1 to 6 as an example.

When a user needs to use the shared power supply, the shared power supply can be popped out of the accommodating bin 11 by the pop-up structure (the pop-up structure can be a pop-up structure in any existing shared power supply rental cabinet, and the specific structure and principle of the pop-up structure are not explained here), in the process of popping out the shared power supply, the dust-proof part 2 is pushed to rotate so that the user can take out the shared power supply, and after the user takes out the shared power supply, the dust-proof part 2 can reset under the action of gravity and the torsion spring 22 so as to shield the opening 111 of the accommodating bin 11.

When a user needs to return the shared power source, the user can press the operation button 14 first, at this time, the telescopic structure 13 drives the dust-proof member 2 to open to expose the accommodating chamber 11, the user inserts the shared power source into the accommodating chamber 11 through the opening 111, the shared power source transmits the insertion force to the first moving assembly 3 during the insertion process, the moving rod 31 in the first moving assembly 3 is pushed to the hydraulic cylinder 4 by the shared power source, the moving rod 31 pushes the hydraulic medium in the hydraulic cylinder 4, the hydraulic cylinder 4 can make the second moving assembly 5 move upwards, the second moving assembly 5 pushes the first rotating plate 81 in the rotating transmission mechanism to rotate through the connecting rod 52, the first rotating plate 81 drives the second rotating plate 82 to rotate, the second rotating plate 82 drives the second rotating arm of the torsion spring 22 to rotate around the rotating shaft 21, the first rotating arm of the torsion spring 22 drives the dust-proof member 2 to rotate and shield the opening 111 of the accommodating chamber 11, thereby achieving automatic closing of the dust-proof 2 after the user returns the shared power source.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. A shared power supply rental cabinet is characterized by comprising a shell (1), a dustproof piece (2) and a transmission mechanism;

an accommodating bin (11) for accommodating a shared power supply is arranged in the shell (1), and one end of the accommodating bin (11) is provided with an opening (111) for inserting the shared power supply;

the dustproof piece (2) is rotatably arranged on the shell (1) and is used for shielding or exposing the opening (111);

one end of the transmission mechanism movably extends into the accommodating bin (11) and is used for being in contact with the shared power supply, the other end of the transmission mechanism is connected with the dustproof piece (2), and the transmission mechanism is used for converting the insertion force of the shared power supply when being inserted into the accommodating bin (11) into the rotating force which drives the dustproof piece (2) to rotate and covers the opening (111).

2. The shared power rental cabinet of claim 1, wherein the drive mechanism comprises a movement drive mechanism and a rotation drive mechanism;

one end of the movable transmission mechanism movably extends into the accommodating bin (11) and is used for being in contact with one end, far away from the opening (111), of the shared power supply, the other end of the movable transmission mechanism is in contact with one end of the rotary transmission mechanism, and the other end of the rotary transmission mechanism is connected with the dustproof piece (2);

the movable transmission mechanism is used for converting an insertion force when the shared power supply is inserted into the accommodating bin (11) into a pushing force perpendicular to the insertion direction (D3) of the shared power supply and pushing the rotary transmission mechanism to rotate, so that the rotary transmission mechanism drives the dustproof piece (2) to rotate and covers the opening (111).

3. The shared power rental cabinet of claim 2, wherein the movement transmission mechanism comprises a first movement assembly (3), a hydraulic cylinder (4), and a second movement assembly (5);

the hydraulic cylinder (4) is mounted in the housing (1), the hydraulic cylinder (4) comprises a first cylinder (41) extending in an insertion direction (D3) of the shared power source and a second cylinder (42) extending in a direction perpendicular to the insertion direction (D3) of the shared power source, the interior of the first cylinder (41) and the interior of the second cylinder (42) are communicated with each other;

one end of the first moving assembly (3) movably extends into the accommodating bin (11), and the other end of the first moving assembly (3) movably extends into the first cylinder body (41);

one end of the second moving assembly (5) movably extends into the second cylinder body (42), and the other end of the second moving assembly (5) is in contact with the rotating transmission mechanism.

4. The shared power rental cabinet of claim 3, wherein the first movement assembly (3) comprises a movement bar (31) and a first piston rod (32);

the first piston rod (32) comprises a first rod body (321) and a first piston portion (322) formed on the first rod body (321), the first piston portion (322) being located inside the first cylinder body (41);

one end of the moving rod (31) movably extends into the accommodating bin (11), and the other end of the moving rod (31) is used for being in contact with one end, far away from the first piston part (322), of the first rod body (321).

5. The shared power rental cabinet of claim 4, wherein the housing (1) has a cavity (12) therein, the cavity (12) being located between the accommodating compartment (11) and the first cylinder (41);

a plurality of guide structures (121) are mounted on the cavity wall of the cavity (12), the guide structures (121) are arranged at intervals along the circumferential direction of the moving rod (31), and one side, away from the cavity wall of the cavity (12), of each guide structure (121) abuts against the outer circumferential surface of the moving rod (31);

the first rod body (321) is provided with a roller (6), and the roller (6) is in rolling contact with the cavity wall of the cavity (12).

6. The shared power rental cabinet of claim 4, wherein an end of the first lever (321) remote from the first piston portion (322) is provided with a buffer (7), the buffer (7) being adapted to contact the moving lever (31).

7. The shared power rental cabinet of claim 3, wherein the second moving assembly (5) comprises a second piston rod (51) and a connecting rod (52);

the second piston rod (51) comprises a second rod body (512) and a second piston part (513) formed on the second rod body (512), the second piston part (513) is located in the second cylinder (42), the second rod body (512) comprises a first section (5121) and a second section (5122), the first section (5121) extends along a direction perpendicular to the insertion direction (D3) of the shared power supply and is connected with the second piston part (513), the second section (5122) extends from one end of the first section (5121) far away from the second piston part (513) to a direction close to the opening (111), and the first section (5121) and the second section (5122) form an L shape;

one end of the connecting rod (52) is connected with one end, far away from the first section (5121), of the second section (5122), the other end of the connecting rod (52) extends towards the direction far away from the first section (5121) and is in contact with the rotating transmission mechanism, and the connecting rod (52), the second section (5122) and the first section (5121) form a Z shape.

8. The shared power rental cabinet of claim 2, wherein the rotation transmission mechanism includes a first rotating plate (81) and a second rotating plate (82);

the first rotating plate (81) and the second rotating plate (82) are both rotatably arranged in the shell (1), one end of the first rotating plate (81) is in contact with the moving transmission mechanism, the other end of the first rotating plate (81) is in contact with one end of the second rotating plate (82), and the other end of the second rotating plate (82) is connected with the dustproof piece (2);

the first rotating plate (81) is used for rotating along a first direction (D1) under the action of the pushing force and driving the second rotating plate (82) to rotate along a second direction (D2) opposite to the first direction (D1), so that the second rotating plate (82) drives the dust-proof piece (2) to rotate along the first direction (D1) and cover the opening (111).

9. The cabinet for leasing power supplies according to claim 8, wherein the dust-proof member (2) is rotatably mounted on the housing (1) through a rotating shaft (21), a torsion spring (22) is sleeved on the rotating shaft (21), a first torsion arm of the torsion spring (22) is connected with the dust-proof member (2), and a second torsion arm of the torsion spring (22) is in contact with the other end of the second rotating plate (82).

10. The shared power rental cabinet of any of claims 1-9, further comprising a telescoping structure (13) and an operating button (14);

one end of the telescopic structure (13) is connected with the dustproof piece (2), the other end of the telescopic structure (13) is connected with the shell (1), and the telescopic structure (13) can drive the dustproof piece (2) to rotate and expose the opening (111);

the operating button (14) is electrically connected with the telescopic structure (13).

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