CN212201682U - Shared rental device - Google Patents

Abstract

The application discloses shared leasing equipment, which comprises shared equipment and a leasing device, wherein the shared equipment is provided with a lock hole; the locking device is provided with a lock catch, and the lock catch is matched with the lock hole to lock the sharing equipment; the shell is used for storing the sharing equipment and is provided with a first guide groove and an access port; the loading bin is used for loading the shared equipment, is arranged inside the shell and is provided with a first pushing hand part, and the first pushing hand part is positioned in the first guide groove; and the driving device is arranged in the first guide groove and connected with the first pushing hand part, and the driving device drives the first pushing hand part to drive the loading bin to move towards the access opening by releasing stored energy. Compared with the existing shared rental equipment, the shared rental equipment provided by the application has the advantage of lower cost.

Description

Shared rental device

Technical Field

The application relates to the technical field of shared equipment, in particular to shared rental equipment.

Background

With the coming of the sharing era, the lives of people become more convenient, economical and cyclic, the existing sharing devices such as mobile power supplies, portable interpreters, navigators and translators can be shared and used through public leasing, and due to factors such as sharing systems and supply of sharing devices for endurance, the sharing devices need to be arranged under various use scenes for storage, return and borrowing of the sharing devices.

At present, shared rental equipment on the market usually adopts a mode of combining a motor and a screw to realize access operation of the shared equipment, but the mode of combining the motor and the screw has the defects of large volume, high cost and the like, so how to realize the design of an access device on the premise of low cost is a technical problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve one of the technical problem that exists among the prior art at least, provide a sharing leased equipment, compare in the design of current sharing leased equipment, have lower cost's advantage.

According to some embodiments of the present application, there is provided a shared rental device, including:

the sharing equipment is provided with a lock hole and a triangular bulge for preventing fool and reverse insertion;

the locking device is provided with a locking part, and the locking part is matched with the lock hole to lock the sharing equipment;

the shell is used for storing the sharing equipment and is provided with a first guide groove and an access port;

the loading bin is used for loading the shared equipment, is arranged inside the shell and is provided with a first pushing hand part, and the first pushing hand part is positioned in the first guide groove;

and the driving device is arranged in the first guide groove and connected with the first pushing hand part, and the driving device drives the first pushing hand part to drive the loading bin to move towards the access opening by releasing stored energy.

According to the shared rental equipment provided by the embodiment of the application, at least the following beneficial effects are achieved: the shared rental equipment in the embodiment of the application is used for storing the shared equipment, when the shared equipment is not lent by a user, the locking part of the locking device is located at the position of the locking hole of the shared equipment, so that the shared equipment is locked inside the shell by the locking device, the shared equipment is prevented from being lost and damaged, when the shared equipment is locked, the loading bin moves to the innermost part of the shell, and at the moment, the driving device connected with the loading bin is in an energy storage transition state; when the shared equipment is lent, the locking device releases the shared equipment, the driving device drives the loading bin to move towards the access port outside the shell along the first guide groove by releasing the stored energy, so that the shared equipment exits to the outside of the shell of the shared rental equipment, and a user can conveniently take out the shared equipment.

According to some embodiments of the present application, further comprising a power supply device provided with a power supply terminal; the sharing device is also provided with a charging terminal; the shell is also provided with a first charging port; the loading bin is also provided with a second charging port; the power supply terminal is electrically connectable with the charging terminal through the first charging port and the second charging port.

According to some embodiments of the application, the locking device comprises:

the locking assembly comprises a lock catch and a tension spring used for enabling the lock catch to move towards the shell, the lock catch is provided with a first convex part and a locking part, the shell and the loading bin are provided with avoidance openings used for avoiding the locking part, and the tension spring is connected with the shell and the lock catch;

the unlocking assembly comprises a rotating piece used for being matched with the first convex portion, when the rotating piece rotates, the rotating piece drives the first convex portion to drive the lock catch to overcome the acting force of the tension spring to move.

According to some embodiments of the application, the hasp is the U type, the hasp is including the first arm, end arm and the second arm that connect gradually, locking portion protrusion set up in end arm, the protruding direction of locking portion with the U type opening direction of hasp is unanimous, the casing still is provided with the spout, the hasp set up in the spout just can along the spout removes.

According to some embodiments of the application, the hasp still is provided with first knot portion, first knot portion set up in first arm or the second arm, the casing still be provided with first spliced pole that detains the portion and correspond, the both ends of extension spring correspond connect in first knot portion with the spliced pole.

According to some embodiments of the application, the rotating member is provided with a bottom surface and a wall in the shape of a circular arc provided at the bottom surface, the wall is provided with an abutment surface contactable with the first protrusion, and a distance between the abutment surface and the bottom surface gradually decreases along a rotation direction of the rotating member.

According to some embodiments of the present application, the number of the walls is two or more, the two or more walls are uniformly distributed in the rotating member along the rotating direction of the rotating member, and a gap capable of accommodating the first protrusion is provided between the two or more walls.

According to some embodiments of the present application, the unlocking assembly further comprises a contact switch provided with a key portion; the lock catch is also provided with a groove; when the first convex part is positioned in the gap, the key part is positioned in the groove; when the first convex part is contacted with the abutting surface, the key part is pressed by the lock catch.

According to some embodiments of the present application, the unlocking assembly further comprises a power device provided to the housing, the power device being provided with a drive shaft, the rotating member being provided to the drive shaft such that the drive shaft can drive the rotating member to rotate; when the key part is positioned in the groove, the power device stops working.

According to some embodiments of the present application, the driving device comprises a first damping rod with elastic force, the first damping rod comprises a first damping cavity, a first transmission rod and a first spring, the first spring is arranged inside the first damping cavity, and the first spring can drive the first transmission rod to move outwards from the inside of the first damping cavity; the first transmission rod is connected with the first pushing hand part.

According to some embodiments of the application, first guide way is provided with first baffle, first guide way passes through first baffle forms first spacing groove and first track groove, first baffle is provided with and is used for stepping down the first breach of first transfer line, first damping cavity set up in first spacing groove, first pushing hands portion set up in first track groove.

According to some embodiments of the present application, further comprising an auxiliary drive; the shell is also provided with a guide groove, and the loading bin is also provided with a connecting part; the connecting part is arranged in the guide groove, the auxiliary driving device is arranged in the guide groove and connected with the connecting part, and the auxiliary driving device drives the connecting part to drive the loading bin to move towards the access opening by releasing stored energy.

According to some embodiments of the present application, the auxiliary drive comprises a second spring and a second dampening bar; the guide groove is provided with a second partition plate, and a second guide groove and a third guide groove are formed in the guide groove through the second partition plate; the shell is also provided with a third buckling part; the connecting part comprises a fourth buckling part and a second pushing hand part, the fourth buckling part is positioned in the second guide groove, and the second pushing hand part is positioned in the third guide groove; the second spring is arranged in the second guide groove, two ends of the second spring are correspondingly connected to the third buckling part and the fourth buckling part, and the second damping rod is arranged in the third guide groove and connected with the second pushing handle part.

According to some embodiments of the present application, the second damping lever comprises a second damping cavity and a second transmission lever, the second transmission lever being connected with the second push handle; the second spring drives the second drive link to move outward from the interior of the second damping chamber or the second drive link to move toward the interior of the second damping chamber by releasing the stored energy.

According to some embodiments of the application, the third guide way is provided with the third division board, the third guide way passes through the third division board forms second spacing groove and second track groove, the third division board is provided with and is used for stepping down the second breach of second transfer line, second damping cavity set up in the second spacing groove, second pushing hands portion set up in second track groove.

According to some embodiments of this application, the casing still is provided with the panel and is used for opening or closing the door of access opening, the panel be provided with the opening that the access opening corresponds, the door is provided with the fixture block, works as the door is closed access opening, the panel blocks the fixture block.

According to some embodiments of this application, the door still is provided with the rotation axis, the door pass through the rotation axis activity set up in the casing, rotatory axle coupling has the torsional spring, works as the door is opened access opening, the torsional spring is right the door is applyed elasticity.

Additional features and advantages of the application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the application. The objectives and other advantages of the application may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples;

FIG. 1 is an exploded view of a shared rental device provided in an embodiment of the present application, with respect to the structure of a rental unit;

FIG. 2 is a block diagram of a shared rental device with respect to the locking mechanism of the locking mechanism according to another embodiment of the present application;

FIG. 3 is a connection diagram of the power unit and the locking member of the locking device of the shared rental apparatus according to another embodiment of the present application;

FIG. 4 is a connection diagram of a contact switch and a locking component of a locking device of a shared rental apparatus according to another embodiment of the present application;

FIG. 5 is a block diagram of a shared rental device with respect to a housing, as provided in another embodiment of the present application;

FIG. 6 is a diagram of the position of the shared rental equipment with respect to the loading bay and the driving device according to another embodiment of the present application;

fig. 7 is a block diagram of a shared rental apparatus related to a power supply device according to another embodiment of the present application;

fig. 8 is a perspective view of a shared rental apparatus according to another embodiment of the present application;

fig. 9 is a block diagram of a door of a housing for shared rental equipment according to another embodiment of the present disclosure.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the application, it is to be understood that the positional descriptions, such as the directions or positional relationships indicated above, below, front, rear, left, right, etc., are based on the directions or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific direction, be constructed and operated in a specific direction, and therefore, should not be construed as limiting the present invention.

In the description of the application, the meaning of a plurality is one or more, the meaning of a plurality is two or more, and larger, smaller, larger, etc. are understood as excluding the present number, and larger, smaller, inner, etc. are understood as including the present number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present application, unless explicitly defined otherwise, terms such as setting, installing, connecting and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention by combining the specific contents of the technical solutions.

Referring to fig. 1, in some embodiments of the present application, there is provided a shared rental device, comprising:

a sharing device 5000 provided with a lock hole 5100 and a triangular boss (not shown in the drawings) for fool-proofing and reverse-plugging-proofing; a locking device 3000 provided with a locking portion 3121, the locking portion 3121 locking the sharing apparatus 5000 in cooperation with the locking hole 5100; a case 1000 for storing the sharing device 5000, the case 1000 being provided with a first guide groove 1100 and an access port 1300; a loading compartment 2000 for loading the shared device 5000, the loading compartment 2000 being disposed inside the housing 1000, the loading compartment 2000 being provided with a first pushing hand portion 2100, the first pushing hand portion 2100 being located in the first guide groove 1100; the driving unit 4100 is disposed in the first guide groove 1100 and connected to the first pushing handle 2100, and the driving unit 4100 drives the first pushing handle 2100 to move the loading compartment 2000 to the access opening 1300 by releasing the stored energy.

In one embodiment, the shared renting device is used for storing the shared device 5000, when the shared device 5000 is not lent by a user, the locking portion 3121 of the locking device 3000 is in the position of the locking hole 5100 of the shared device 5000, so that the shared device 5000 is locked inside the casing 1000 by the locking device 3000, the shared device 5000 is prevented from being lost and damaged, when the shared device 5000 is locked, the loading bin 2000 moves to the innermost part of the casing 1000, and at this time, the driving device 4100 connected with the loading bin 2000 is in an energy storage transition state; when the shared device 5000 is lent, the locking device 3000 releases the shared device 5000, and the driving device 4100 drives the first pushing hand 2100 to drive the loading bin 2000 to move along the first guiding slot 1100 towards the access port 1300 outside the housing 1000 by releasing the stored energy, so that the shared device 5000 exits to the outside of the housing 1000 of the shared rental apparatus, which is convenient for the user to take out and use.

It should be noted that, in order to maintain the order of the sharing economy and avoid the loss of the shared devices, a locking mechanism needs to be provided in the public rental devices. Currently, the renting equipment on the market usually adopts an electromagnetic valve as a locking and unlocking mechanism, but the electromagnetic valve has the defects of large volume, high cost, abnormal unlocking and the like, and has poor safety performance. Therefore, in some embodiments of the present application, a locking mechanism is provided and applied to shared rental equipment, which can lock and unlock the shared equipment by the rental equipment, and improve the security and the use experience of the rental equipment.

Referring to fig. 1-3, in some embodiments of the present application, a locking device 3000 includes:

a locking assembly 3000A including a lock buckle 3100 and a tension spring 3200 for moving the lock buckle 3100 toward the housing 1000, the lock buckle 3100 being provided with a first protrusion 3111 and a lock portion 3121, the housing 1000 and the loading compartment 2000 being provided with an avoidance opening 2400 for avoiding the lock portion 3120 (the avoidance opening of the housing 1000 is not shown), the tension spring 3200 connecting the housing 1000 and the lock buckle 3100;

the unlocking assembly 3000B includes a rotating member 3300 for cooperating with the first protrusion 3111, and when the rotating member 3300 rotates, the rotating member 3300 drives the first protrusion 3111 to drive the latch 3100 to move against the action of the spring.

In one embodiment, the locking and unlocking mechanism comprises a locking assembly 3000A and an unlocking assembly 3000B, the locking assembly 3000A comprises a lock 3100 and a tension spring 3200 used for moving the lock 3100 towards the housing 1000, when the shared device is returned to the housing 1000, the lock 3100 moves towards the housing 1000 under the action of the tension spring 3200, so that a locking portion 3121 of the lock 3100 moves into a corresponding lock hole 5100 of the shared device, and the shared device is locked; the unlocking assembly 3000B comprises a rotating member 3300 and a first convex portion 3111 which is matched with the rotating member 3300 to act, the first convex portion 3111 is arranged on the lock 3100, when the rotating member 3300 rotates, the first convex portion 3111 can be driven to drive the lock 3100 to move in a direction away from the housing 1000, the lock 3100 is driven by the first convex portion 3111 to overcome the acting force of the tension spring 3200 to move away from the housing 1000, and further the locking portion 3121 is separated from the lock hole 5100 of the shared device, so that the unlocking process of the shared device is completed, the housing 1000 and the loading bin 2000 are respectively provided with an avoiding opening 2400 for avoiding the locking portion 3121, and the lock 3100 passes through the avoiding opening 2400 during moving to lock and unlock the shared device 5000.

Referring to fig. 1 to 2, in some embodiments of the present application, the latch 3100 is U-shaped, the latch 3100 includes a first arm 3110, a bottom arm 3120 and a second arm 3130, which are sequentially connected, a locking portion 3121 is protrudingly disposed on the bottom arm 3120, a protruding direction of the locking portion 3121 coincides with a U-shaped opening direction of the latch 3100, the housing 1000 is further provided with a chute 1900, and the latch 3100 is disposed on the chute 1900 and is movable along the chute 1900.

In one embodiment, the lock buckle 3100 may be disposed around the housing 1000, and the locking portion 3121 is disposed at the bottom arm 3120, the protruding direction of the locking portion 3121 coincides with the U-shaped opening direction of the lock buckle 3100, so that the installation space between the lock buckle 3100 and the housing 1000 can be saved; the first arm 3110 and the second arm 3130 also serve as a restriction function, and prevent the lock 3100 from swinging up and down when moving with respect to the housing 1000, thereby improving stability when moving the lock 3100 with respect to the housing 1000. In addition, the housing 1000 is further provided with a sliding groove 1900, and the sliding groove 1900 can limit the moving track of the lock 3100, so that the problem of locking failure caused by the position deviation of the lock 3100 can be avoided.

Referring to fig. 1 to 3, in some embodiments of the present application, the latch 3100 is further provided with a first buckle portion 3112, the first buckle portion 3112 is disposed on the first arm 3110 or the second arm 3130, the housing 1000 is further provided with a connection column 1700 corresponding to the first buckle portion 3112, and two ends of the tension spring 3200 are correspondingly connected to the first buckle portion 3112 and the connection column 1700.

In one embodiment, the tension spring 3200 is connected to the connection post 1700 of the housing 1000 at one end and connected to the first button portion 3112 of the button 3100, so that the button 3100 and the housing 1000 can be elastically connected. The extension spring 3200 connecting the first buckle portion 3112 and the connection column 1700 is always in a tension state, so the extension spring 3200 can generate a tension force, so that the latch 3100 has a tendency to move toward the housing 1000, thereby locking the shared device by the latch 3100.

Referring to fig. 1 to 3, in some embodiments of the present application, the rotary member 3300 is provided with a bottom surface 3310 and a wall 3320 having a circular arc shape provided to the bottom surface 3310, the wall 3320 is provided with an abutment surface 3321 capable of contacting with the first protrusion 3111, and a distance between the abutment surface 3321 and the bottom surface 3310 is gradually reduced along a rotation direction of the rotary member 3300.

In one embodiment, when the sharing device is in the locked state, the first protrusion 3111 is at a position where the distance between the abutment surface 3321 and the bottom surface 3310 is minimum; when the lock is unlocked, the rotating member 3300 rotates, and the distance between the abutment surface 3321 and the bottom surface 3310 gradually decreases along the rotation direction of the rotating member 3300, so that the first protrusion 3111 moves along the abutment surface 3321 relative to the abutment surface 3321 during the rotation of the rotating member 3300, and the distance between the abutment surface 3321 in contact with the first protrusion 3111 and the bottom surface 3310 becomes larger, so that the wall 3320 provided on the rotating member 3300 can push the lock 3100 away from the housing 1000 along with the rotation of the rotating member 3300, so that the locking portion 3121 in the lock 3100 can be separated from the shared device 5000, thereby achieving the purpose of unlocking.

Referring to fig. 1 and 3, in some embodiments of the present disclosure, the number of the walls 3320 is two or more, the two or more walls 3320 are uniformly distributed on the rotary member 3300 along the rotation direction of the rotary member 3300, and a gap capable of accommodating the first protrusion 3111 is disposed between the two or more walls 3320.

In one embodiment, the latch 3100 performs an unlocking operation when the first protrusion 3111 moves in the first wall 3320 relative to the abutment surface 3321; when the first protrusion 3111 passes through the first wall 3320, the latch 3100 may drive the first protrusion 3111 to fall into the gap under the action of the tension spring 3200, and at this time, the latch 3100 may perform a locking operation. Therefore, the lock latch 3100 may repeatedly perform the locking operation and the unlocking operation as the rotary member 3300 rotates, that is, the lock latch 3100 may perform the locking operation and the unlocking operation at least twice in one rotation cycle of the rotary member 3300, and the number of times the lock latch 3100 performs the locking operation and the unlocking operation is related to the number of the walls 3320, so that the rotation angle of the rotary member 3300 at the time of performing one unlocking operation may be set according to the number of the walls 3320, and thus the accuracy of the locking operation and the unlocking operation may be improved.

Referring to fig. 4, in some embodiments of the present application, the unlocking assembly 3000B further comprises a contact switch 3500, the contact switch 3500 being provided with a key portion 3510; the latch 3100 is also provided with a groove 3140; when the first protrusion 3111 is in the gap, the key portion 3510 is in the groove 3140; when the first protrusion 3111 comes into contact with the abutment surface 3321, the key portion 3510 is pressed by the lock 3100.

In one embodiment, the unlocking assembly 3000B further includes a contact switch 3500, when the lock 3100 is driven by the rotating member 3300 to perform a relative movement, so as to drive the lock 3100 to move to a position relatively far away from the housing 1000, and as the lock 3100 moves, the button portion 3510 of the contact switch 3500 is pressed by the lock 3100, and as the lock 3100 is pushed away from the housing 1000 by the rotating member 3300, the locking portion 3121 of the lock 3100 is away from the locking hole 5100 of the sharing device 5000, so that the driving device 4100 releases the stored energy to drive the loading compartment 2000 to drive the sharing device 5000 loaded inside the loading compartment 2000 to move to the access 1300. At this time, the rotary member 3300 continues to rotate, when the first protrusion 3111 of the lock 3100 is away from the abutment surface 3321 of the rotary member 3300, because the wall 3320 of the rotary member 3300 does not abut against the first protrusion 3111, the lock 3100 is pulled by the tension spring 3200, so that the first protrusion 3111 falls into the gap between two adjacent walls 3320 of the rotary member 3300, at this time, the key portion 3510 is resiliently restored from the pressed state and is located in the groove 3140 of the lock 3100, and when the key portion 3510 is located in the groove 3140, the contact switch 3500 triggers a switch signal to stop the rotation of the rotary member 3300. Therefore, the contact switch 3500 can be provided to accurately control the movement of the rotary member 3300, thereby avoiding the problem of inaccurate locking due to over-rotation of the rotary member 3300.

Referring to fig. 1-3, in some embodiments of the present application, the unlocking assembly 3000B further comprises a power device 3400, the power device 3400 is disposed on the housing 1000, the power device 3400 is provided with a driving shaft 3410, and a rotating member 3300 is disposed on the driving shaft 3410 such that the driving shaft 3410 can drive the rotating member 3300 to rotate; when the button portion 3510 is located in the groove 3140, the power device 3400 stops working.

In one embodiment, the driving shaft 3410 of the power device 3400 is connected to the rotating member 3300, when the user performs the borrowing operation of the sharing device 5000 through a code scanning or other means, the power device 3400 is activated to rotate the rotating member 3300 connected to the power device 3400, so as to drive the first protrusion 3111 to move relative to the abutment surface 3321, so that the latch 3100 is separated from the housing 1000, thereby performing the unlocking operation, the button 3510 of the contact switch 3500 is pressed by the latch 3100 during the movement of the latch 3100 and the relative separation from the housing 1000, and when the first protrusion 3111 passes through the abutment surface 3321 and falls into the gap, the button 3510 of the contact switch 3500 is located in the groove 3140, i.e., the button 3510 of the contact switch 3500 is outwardly protruded and reset, and at this time, the contact switch 3500 outputs a trigger signal, so as to stop the power device 3400. Accordingly, the contact switch 3500 can achieve control of the power device 3400, thereby enabling more accurate operation of the power device 3400.

Referring to fig. 1, in some embodiments of the present application, the driving apparatus 4100 includes a first damping rod 4110 with elastic force, the first damping rod 4110 includes a first damping cavity 4111, a first driving rod 4112, and a first spring 4113, the first spring 4113 is disposed inside the first damping cavity 4111, and the first spring 4113 can drive the first driving rod 4112 to move outwards from inside the first damping cavity 4111; the first driving lever 4112 is connected to the first pushing handle 2100.

In one embodiment, the driving apparatus 4100 includes a first damping rod 4110, the first damping rod 4110 includes a first damping cavity 4111 and a first transmission rod 4112, a first spring 4113 is disposed inside the first damping cavity 4111, when the shared device 5000 is in the loading compartment 2000, the loading compartment 2000 is pushed to the innermost end inside the housing 1000 by the shared device 5000, so that the first transmission rod 4112 connected to the first pushing handle 2100 of the loading compartment 2000 moves into the first damping cavity 4111, so that the first spring 4113 connected to the first transmission rod 4112 is compressed, and thus the first damping rod 4110 is in an energy storage state, at which time, the latch 3100 locks the shared device 5000; when a user needs to borrow the sharing device 5000, the rotating member 3300 rotates to drive the lock buckle 3100 to leave the sharing device 5000, at this time, the first spring 4113 releases energy to pop out, so as to push the first transmission rod 4112 to move towards the outside of the first damping cavity 4111, and further drive the first pushing hand portion 2100 of the loading bin 2000 to move towards the access opening 1300 of the loading bin 2000, so as to quit the sharing device 5000 outside the housing 1000 of the access apparatus, thereby realizing the automatic pop-up function of the sharing device 5000, and facilitating the user to take out the sharing device 5000 for use.

Referring to fig. 1 and 5, in some embodiments of the present application, the first guide groove 1100 is provided with a first partition plate 1110, the first guide groove 1100 forms a first limiting groove 1120 and a first rail groove 1130 by the first partition plate 1110, the first partition plate 1110 is provided with a first notch 1110a for abdicating the first transmission rod 4112, the first damping cavity 4111 is provided in the first limiting groove 1120, and the first pushing hand portion 2100 is provided in the first rail groove 1130.

In an embodiment, the first limiting groove 1120 plays a role in fixing when the first damping cavity 4111 releases energy, so as to prevent the first damping cavity 4111 from shaking due to the release of energy, the first driving rod 4112 moves along the first rail groove 1130 through the first notch 1110a in the energy release process, and drives the first pushing handle 2100 to move from one end of the first rail groove 1130 to the other end, and the first guiding groove 1100 enables the energy stored in the first power device 3400 to be released in a concentrated manner along a specific direction, so that the sharing device 5000 can be driven to pop up more stably.

Referring to fig. 1, 5 and 6, in some embodiments of the present application, an auxiliary drive 4200 is further included; the housing 1000 is further provided with a guide groove 1200, and the loading bin 2000 is further provided with a connecting portion 2200; the connection portion 2200 is disposed in the guide groove 1200, the auxiliary driving device 4200 is disposed in the guide groove 1200 and connected to the connection portion 2200, and the auxiliary driving device 4200 drives the connection portion 2200 to move the loading compartment 2000 to the access opening 1300 by releasing the stored energy.

In an embodiment, when the driving device 4100 drives the loading bay 2000 to move towards the access opening 1300, the auxiliary driving device 4200 simultaneously drives the loading bay 2000 to move towards the access opening 1300 along the guiding slot 1200 through the connecting portion 2200, so as to provide auxiliary power for the first power device 3400, and ensure that the shared device 5000 can be ejected from the access opening.

Referring to fig. 1, 5 and 6, in some embodiments of the present application, the auxiliary drive 4200 includes a second spring 4210 and a second damper rod 4220; the guide groove 1200 is provided with a second partition plate 1210, and the guide groove 1200 forms a second guide groove 1220 and a third guide groove 1230 by the second partition plate 1210; the housing 1000 is further provided with a third button 1800; the connection portion 2200 includes a fourth button portion 2210 and a second pushing handle portion 2220, the fourth button portion 2210 is located in the second guide groove 1220, and the second pushing handle portion 2220 is located in the third guide groove 1230; the second spring 4210 is disposed in the second guide groove 1220, and both ends of the second spring 4210 are correspondingly connected to the third button 1800 and the fourth button 2210, and the second damping rod 4220 is disposed in the third guide groove 1230 and connected to the second pushing handle 2220.

In an embodiment, one end of the second spring 4210 is connected to the housing 1000, and the other end is connected to the loading compartment 2000, when the sharing device 5000 is loaned out, the state of the second spring 4210 changes from a stretched state to a rebounded state, so as to release energy, thereby driving the loading compartment 2000 to move towards the access port 1300, so that the sharing device 5000 can be ejected from the access device, when the loading compartment 2000 moves, the second damping rod 4220 located in the third guiding groove 1230 is in a damping state, so as to reduce the moving speed of the loading compartment 2000, and avoid that the sharing device 5000 is ejected too fast to cause the sharing device 5000 to be pulled out from the access device, and in addition, by reasonably setting the power parameters of the first power device 3400 and the second power device 3400, the ejecting speed of the sharing device 5000 can better meet the user requirements.

Referring to fig. 1, 5 and 6, in some embodiments of the present application, the second damping rod 4220 comprises a second damping chamber 4221 and a second transmission rod 4222, the second transmission rod 4222 being connected with the second push handle portion 2220; the second spring 4210 drives the second transmission rod 4222 to move outwardly from the interior of the second damping chamber 4221 or the second transmission rod 4222 moves towards the interior of the second damping chamber 4221 by releasing the stored energy.

In one embodiment, when the second spring 4210 releases the stored energy, the second transmission rod 4222 moves outwards from the interior of the second damping chamber or moves towards the interior of the second damping chamber 4221, both of which can prevent the second spring 4210 from releasing energy too fast, and prevent the sharing device 5000 from being released from the access device and damaged due to too fast rebound of the second spring 4210.

Referring to fig. 1, 5 and 6, in some embodiments of the present application, the third guide groove 1230 is provided with a third partition 1231, the third guide groove 1230 forms a second limiting groove 1232 and a second rail groove 1233 by the third partition 1231, the third partition 1231 is provided with a second notch 1231a for abdicating the second transmission rod 4222, the second damping cavity 4221 is provided in the second limiting groove 1232, and the second push handle 2220 is provided in the second rail groove 1233.

In an embodiment, the second limiting groove 1232 can fix the second damping chamber 4221, and the second notch 1231a can stabilize the second transmission rod 4222.

Referring to fig. 1, 6 and 7, in some embodiments of the present application, a power supply device 6000 is further included, the power supply device 6000 being provided with a power supply terminal 6100; the shared device 5000 is also provided with a charging terminal 5200; the housing 1000 is further provided with a first charging port 1600; the loading bay 2000 is also provided with a second charging port 2300; the power supply terminal 6100 can be electrically connected to the charging terminal 5200 through the first charging port 1600 and the second charging port 2300.

In an embodiment, when the sharing device 5000 is returned, the user is required to manually push the sharing device 5000 to the inside of the housing 1000, the loading bin 2000 moves to the inside of the housing 1000 along with the sharing device 5000 in the process of pushing the sharing device 5000, a power supply device 6000 is arranged at the other end of the inside of the housing 1000 opposite to the direction of the access port 1300, the power supply device 6000 is provided with a power supply terminal 6100 towards the direction of the access port 1300, and after the sharing device 5000 is completely returned, the power supply terminal 6100 passes through the first charging port 1600 of the housing 1000 and the second charging port 2300 of the loading bin 2000 to be connected with the charging terminal 5200 of the sharing device 5000, so as to charge the sharing device 5000 for the next use of the sharing device 5000.

It should be noted that the sharing device 5000 is further provided with an internal charging interface and an external connection interface, and the external connection interface is connected to the sharing device 5000 through a flexible wire. In some embodiments of the application, the shared device 5000 needs to provide a use function for a user after lending, the shared device 5000 is provided with an external connection interface, which may be more convenient for the shared device 5000 to connect with a third-party device and use, and the Type of the external connection interface may be determined according to a use requirement, for example, may be a Type-C standard interface or a Micro USB interface; when the shared device 5000 is lent for a long time and the reserved power is insufficient or used up, the shared device 5000 needs to be returned to the shared rental device in time for charging or maintaining the shared device 5000.

Referring to fig. 1, 8 and 9, in some embodiments of the present application, the housing 1000 is further provided with a panel 1500 and a door 1400 for opening or closing the access opening 1300, the panel 1500 is provided with an opening corresponding to the access opening 1300, the door 1400 is provided with a latch 1410, and when the door 1400 closes the access opening 1300, the panel 1500 blocks the latch 1410.

In one embodiment, when the sharing device 5000 is returned, the sharing device 5000 is inserted into the access device, the door 1400 is pushed by the sharing device 5000 and is opened towards the inside of the casing 1000, and one end of the sharing device 5000 is exposed outside the casing 1000 to remind the user that the rentable sharing device 5000 is stored in the rentable sharing device 5000; after the shared device 5000 is lent, the warehouse door 1400 closes the access port 1300, and at this time, the user cannot see the shared device 5000, which indicates that no shared device 5000 is available for rental in the access device, and the user can conveniently and intuitively judge whether the shared rental device 5000 is available in the shared rental device by opening or closing the warehouse door 1400. In addition, when the door 1400 closes the access opening 1300, the panel 1500 will block the block 1410 of the door 1400, thereby preventing the door 1400 from turning over and affecting the use.

Referring to fig. 1 and 9, in some embodiments of the present disclosure, the bin door 1400 is further provided with a rotating shaft 1420, the bin door 1400 is movably disposed in the housing 1000 through the rotating shaft 1420, and the rotating shaft 1420 is sleeved with a torsion spring 1430, and when the bin door 1400 opens the access opening 1300, the torsion spring 1430 applies an elastic force to the bin door 1400.

In one embodiment, when the sharing device 5000 is inserted into the access device, the door 1400 is turned inside the housing 1000 by the sharing device 5000 via the rotation shaft 1420, and the torsion spring 1430 is compressed during the turning of the door 1400, so that the torsion spring 1430 is twisted to store energy; when the sharing device 5000 is borrowed, the torsion spring 1430 releases the stored energy to restore the original state, so as to push the bin door 1400 to close the access opening 1300, and when the bin door 1400 is closed, the fixture block 1410 on the bin door 1400 is blocked by the panel 1500, so that the bin door 1400 is prevented from being excessively turned outwards, and the one-way opening and closing of the bin door 1400 is realized, so that the user can store the sharing device 5000.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. A shared rental device, comprising:

a sharing device provided with a lock hole;

the locking device is provided with a locking part, and the locking part is matched with the lock hole to lock the sharing equipment;

the shell is used for storing the sharing equipment and is provided with a first guide groove and an access port;

the loading bin is used for loading the shared equipment, is arranged inside the shell and is provided with a first pushing hand part, and the first pushing hand part is positioned in the first guide groove;

and the driving device is arranged in the first guide groove and connected with the first pushing hand part, and the driving device drives the first pushing hand part to drive the loading bin to move towards the access opening by releasing stored energy.

2. The shared rental device of claim 1, wherein the locking means comprises:

the locking assembly comprises a lock catch and a tension spring used for enabling the lock catch to move towards the shell, the lock catch is provided with a first convex part and a locking part, the shell and the loading bin are provided with avoidance openings used for avoiding the locking part, and the tension spring is connected with the shell and the lock catch;

the unlocking assembly comprises a rotating piece used for being matched with the first convex portion, when the rotating piece rotates, the rotating piece drives the first convex portion to drive the lock catch to overcome the acting force of the tension spring to move.

3. The shared rental device of claim 2, wherein the latch is U-shaped, the latch comprises a first arm, a bottom arm and a second arm which are connected in sequence, the locking portion is convexly disposed on the bottom arm, a protruding direction of the locking portion is consistent with a U-shaped opening direction of the latch, the housing is further provided with a sliding groove, and the latch is disposed on the sliding groove and can move along the sliding groove.

4. The shared rental apparatus of claim 2, wherein the rotating member is provided with a bottom surface and a wall in a circular arc shape provided to the bottom surface, the wall is provided with an abutting surface contactable with the first protrusion, and a distance between the abutting surface and the bottom surface is gradually reduced along a rotating direction of the rotating member.

5. The shared rental apparatus of claim 4, wherein the number of the walls is two or more, the two or more walls are evenly distributed on the rotating member along a rotation direction of the rotating member, and a gap capable of accommodating the first protrusion is provided between the two or more walls.

6. The shared rental device of claim 5, wherein the unlocking assembly further comprises a contact switch provided with a key portion; the lock catch is also provided with a groove; when the first convex part is positioned in the gap, the key part is positioned in the groove; when the first convex part is contacted with the abutting surface, the key part is pressed by the lock catch.

7. The shared rental equipment of claim 6, wherein the unlocking assembly further comprises a power device disposed on the housing, the power device being provided with a drive shaft, the rotating member being disposed on the drive shaft such that the drive shaft can rotate the rotating member; when the key part is positioned in the groove, the power device stops working.

8. The shared rental equipment of claim 1, wherein the driving device comprises a first damping rod with elastic force, the first damping rod comprises a first damping cavity, a first transmission rod and a first spring, the first spring is disposed inside the first damping cavity, and the first spring can drive the first transmission rod to move outwards from the inside of the first damping cavity; the first transmission rod is connected with the first pushing hand part.

9. The shared rental device of claim 1, further comprising an auxiliary drive; the shell is also provided with a guide groove, and the loading bin is also provided with a connecting part; the connecting part is arranged in the guide groove, the auxiliary driving device is arranged in the guide groove and connected with the connecting part, and the auxiliary driving device drives the connecting part to drive the loading bin to move towards the access opening by releasing stored energy.

10. The shared rental apparatus of any of claims 1-9, further comprising a power supply device provided with power supply terminals; the sharing device is also provided with a charging terminal; the shell is also provided with a first charging port; the loading bin is also provided with a second charging port; the power supply terminal is electrically connectable with the charging terminal through the first charging port and the second charging port.

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