CN212749997U

CN212749997U - Battery compartment assembly, portable power source lease cabinet and portable power source lease cabinet system

Info

Publication number: CN212749997U
Application number: CN202021297633.0U
Authority: CN
Inventors: 肖朝旭
Original assignee: Shenzhen Jiedian Technology Co ltd
Current assignee: Shenzhen Jiedian Technology Co ltd
Priority date: 2020-07-03
Filing date: 2020-07-03
Publication date: 2021-03-19
Anticipated expiration: 2030-07-03

Abstract

The utility model relates to a shared device leases the field, discloses a battery compartment subassembly and portable power source lease cabinet, and the battery compartment subassembly includes: a fixed seat; the sliding seat is arranged on the fixed seat and can slide on the fixed seat; the power supply locking structure is arranged on the fixed seat and can rotate on the fixed seat; the sliding seat locking assembly is matched and locked with the sliding seat; when the sliding seat moves from the first position to the second position, the sliding seat locking assembly locks the sliding seat, and the sliding seat pushes the power supply locking structure to a second angle, so that the power supply locking structure locks the mobile power supply; when the sliding seat moves from the second position to the first position, the sliding seat locking assembly releases the sliding seat, and the sliding seat pushes the power supply locking structure to the first angle, so that the power supply locking structure releases the mobile power supply. In this way, the embodiment of the utility model provides a can make power locking structure more firm, reduce the condition of kayser and inefficacy.

Description

Battery compartment assembly, portable power source lease cabinet and portable power source lease cabinet system

Technical Field

The utility model relates to a sharing equipment leases the field, especially a battery compartment subassembly, portable power source lease cabinet and portable power source lease cabinet system.

Background

With the gradual rise of the power consumption of the mobile device, the built-in battery carried by the mobile device cannot meet the outdoor requirement of the user, and the situation that the power supply of the mobile device is exhausted in the outdoor activity process of the user often occurs.

Urged the portable power source lease cabinet that is dedicated to solving user's mobile device power and exhausts the problem from this, but the utility model discloses an inventor is realizing the utility model discloses an in-process discovery, portable power source lease cabinet ubiquitous locking structure on the market is insecure, appears kayser and the problem of inefficacy easily.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a main technical problem who solves makes its structure more simple when guaranteeing portable power source lease cabinet safe and reliable, and the cost is lower.

In order to solve the technical problem, the utility model discloses a technical scheme be: the utility model provides a battery compartment subassembly, portable power source lease cabinet and portable power source lease cabinet system, includes:

a fixed seat;

the sliding seat is arranged on the fixed seat and can move between a first position and a second position of the fixed seat;

the power supply locking structure is arranged on the fixed seat and can rotate between a first angle and a second angle relative to the sliding seat;

the sliding seat locking assembly is matched and locked with the sliding seat;

when the sliding seat moves from the first position to the second position, the sliding seat locking assembly locks the sliding seat, and the sliding seat pushes the power supply locking structure to the second angle, so that the power supply locking structure locks the mobile power supply;

when the sliding seat moves from the second position to the first position, the sliding seat locking assembly releases the sliding seat, and the sliding seat pushes the power supply locking structure to the first angle, so that the power supply locking structure releases the mobile power supply.

Optionally, the sliding seat is provided with a guide wall and a guide protrusion;

the power locking structure comprises a sliding arm;

the guide wall is used for matching the sliding seat locking assembly to keep the sliding seat at the second position;

the guide protrusion is used for guiding the sliding arm so that the power locking structure rotates to the second angle.

Optionally, the guide protrusions are disposed on the sliding seat and located on two sides of the guide wall, and the guide protrusions are used for pushing the power locking structure to rotate.

Optionally, the power locking structure further comprises a locking reset unit, the locking reset unit is a torsion spring, and the locking reset unit is used for providing an elastic force for driving the power locking structure to rotate or keep to the first angle.

Optionally, the battery compartment assembly further comprises an upper cover; the upper cover comprises an upper cover body and a sliding seat ejection mechanism;

the sliding seat ejecting mechanism is connected with the upper cover body and the sliding seat and used for driving the sliding seat to move or keep to the elastic force of the first position.

Optionally, the fixing seat is provided with a limiting structure;

the limiting structure is provided with a first limiting wall and a second limiting wall;

the torsion spring is provided with a first branch part and a second branch part, the first branch part is connected with the power supply locking structure, and the second branch part is used for being connected with the second limiting wall;

when the power locking structure rotates to the first angle, the power locking structure is in contact with the limiting structure, so that the power locking structure is kept at the first angle.

Optionally, the fixed seat and the sliding seat together form a battery compartment;

the battery compartment is used for accommodating a mobile power supply and is provided with a compartment opening and a compartment bottom, wherein the compartment opening is arranged on the fixed seat, and the compartment bottom is arranged on the sliding seat.

Optionally, the sliding seat is provided with a sliding hole;

the upper cover is provided with a sliding rod which can slide in the sliding hole;

the sliding seat can move from the first position to the second position or from the second position to the first position through the sliding hole on the sliding rod.

A portable power source rental cabinet, comprising: a cabinet body;

the battery compartment assembly is arranged on the cabinet body and is used for storing the battery.

A portable power source leasing cabinet system comprises the portable power source leasing cabinet;

and the mobile power supply is inserted into a battery bin assembly of the mobile power supply leasing cabinet.

The embodiment of the utility model provides an in, through set up can be between fixing base first position and second position gliding sliding seat, set up on the fixing base and can be between first angle and second angle pivoted power locking structure and can with the sliding seat locking Assembly that the sliding seat carries out adaptation locking realizes working as mobile power source promotes when the sliding seat moves from first position to second position, the sliding seat will promote power locking structure rotates to the second angle from first angle, and mobile power source quilt this moment power locking structure locking is fixed, and works as when the sliding seat moves from the second position to first position, power locking structure rotates to first angle from the second angle, and mobile power source unblock this moment.

Drawings

Fig. 1 is an overall schematic view of a battery compartment assembly according to an embodiment of the present invention;

fig. 2 is an exploded view of a battery compartment assembly according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a locking state of a battery compartment assembly according to an embodiment of the present invention;

fig. 4 is an unlocking state diagram of the battery compartment assembly according to the embodiment of the present invention.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 and 2, the battery compartment assembly 1 includes a fixing base 10, an upper cover 20, a sliding base 30, a power locking structure 40, a sliding base locking assembly 50, a latch driving structure 60, and a portable power source 100. The sliding seat 30 is disposed on the fixed seat 10, and the sliding seat 30 is movable on the fixed seat 10 along a first direction. The upper cover 20 is disposed on the fixed base 10 and connected to one end of the sliding base 30. The power locking structure 40 is mounted on the fixing base 10. The sliding seat locking assembly 50 is rotatably disposed on the fixed seat 10 and can be clamped with the sliding seat 30. The latch actuating structure 60 is disposed on the fixed housing 10 and connected to the sliding housing locking assembly 50. The mobile power source 100 is slidably disposed between the fixing base 10 and the upper cover 20. It should be noted that the first direction is a direction in which the mobile power source is slidably disposed on the fixing base 10, and the second direction is a direction parallel to the fixing base 10 and perpendicular to the direction in which the mobile power source is slidably disposed on the fixing base 10.

Referring to fig. 2, the fixing base 10 is provided with a limiting structure 101, a fixing shaft 102, a rotating groove 103, a mounting groove 104 and a first accommodating groove 105, the fixing base 10 is preset with a first position and a second position, the limiting structure 101 is located on one side of the first accommodating groove 105 in the first direction, and the fixing shaft 102 is arranged on one side of the limiting structure 101 close to the first accommodating groove 105. One side of the first receiving groove 105, which is far away from the limiting structure 101 in the first direction, is communicated with the outside. The first receiving groove 105 is used for receiving and placing a mobile power supply, the limiting structure 101 is used for limiting the power supply locking structure 40, and the fixing shaft 102 is used for matching with the power supply locking structure 40 so that the power supply locking structure 40 can rotate around the fixing shaft 102. The rotation slot 103 is used for installing the sliding seat locking assembly 50 and enabling the sliding seat locking assembly 50 to rotate in the rotation slot 103. The mounting slot 104 is used to mount the latch drive structure 60.

Further, the limiting structure 101 is divided into a first limiting arm (not shown) and a second limiting arm (not shown), and the first limiting arm and the second limiting arm are oppositely disposed on two sides of the fixing base 10 in the second direction.

It is worth mentioning that the first direction is perpendicular to the second direction.

In some embodiments, the fixing base 10 is provided with a first guiding groove (not shown), a mounting base 106 and a first heat dissipation hole 107. The first guide grooves are disposed at two sides of the first receiving groove 105, the sliding seat 30 is disposed at one end of the first receiving groove 105 close to the mounting groove 104, and the first heat dissipation hole 107 penetrates the first receiving groove 105. The first guide groove is used for guiding the portable power source 100 inserted into the first receiving groove 105, so as to reduce sliding friction of the portable power source 100, the mounting seat 106 is used for being matched with the upper cover 20 for mounting, and the first heat dissipation hole 107 is used for dissipating heat of the portable power source 100 in a charging state.

The upper cover 20 includes an upper cover body 201, a sliding rod 202 and a sliding seat ejecting mechanism 203, the sliding rod 202 is disposed on the upper cover body 201, and the sliding seat ejecting mechanism 203 is connected to the upper cover body 201 and the sliding seat 30 and is used for driving the sliding seat 30 to move or maintain the first position.

Specifically, the upper cover body 201 is provided with a second receiving groove 2011, a second heat dissipation hole 2012 and a second guiding groove (not labeled). The two ends of the second receiving groove 2011 are provided with second guide grooves, and the second guide grooves and the first guide grooves cooperate to enable the inserted mobile power supply 100 to slide more smoothly. Second heat dissipation hole 2012 penetrates through second housing groove 2011, and second heat dissipation hole 2012 is used for strengthening the heat dissipation effect when portable power source 100 charges.

In some embodiments, the number of the sliding rods 202 is two and one end of the sliding rod 202 is disposed at one end of the upper cover body 201 in the first direction, and the other end of the sliding rod 202 is connected to the mounting seat 106. The slide rod 202 may be coupled to the slide block 30 and allow the slide block 30 to slide between the first position and the second position via the slide rod 202.

In other embodiments, the sliding seat ejecting mechanism 203 is a tension spring, and two ends of the tension spring are respectively connected to the fixed seat 10 and the sliding seat 30. A certain pretightening force is preset in the initial state of the tension spring, so that the sliding seat 30 is tightly attached to the upper cover 20 due to the pretightening force of the tension spring in the initial state, and at the moment, the sliding seat 30 is located at the first position. When the mobile power supply 100 is completely accommodated in the first accommodating groove 105, the sliding seat 30 moves to the second position, the elastic potential energy accumulated by the tension spring gradually reaches the maximum value in the process that the sliding seat 30 moves from the first position to the second position, and when the sliding seat 30 is not subjected to an external force, the tension spring can drive the sliding seat 30 to slide from the second position to the first position, so that the resetting of the sliding seat 30 is completed, and the mobile power supply 100 is ejected out of the first accommodating groove 105.

The sliding seat 30 is provided with a sliding hole 301, a third receiving groove 302, a guiding wall 303 and a guiding protrusion 304, wherein the sliding hole 301 is disposed on the sliding seat 30 along the first direction, and the third receiving groove 302 is disposed on an end surface of the sliding seat 30 facing the fixing seat 10. The sliding hole 301 is used for sliding the sliding seat 30, the third receiving groove 302 is used for receiving a mobile power source, the first receiving groove 105, the second receiving groove 2011 and the third receiving groove 302 jointly form a battery compartment, and the battery compartment has a compartment opening and a compartment bottom, wherein the compartment opening is arranged on the fixed seat 10, and the compartment bottom is arranged on the sliding seat 30.

Specifically, the guide wall 303 is disposed at the bottom of the sliding seat 30 along the first direction, and the guide protrusions 304 are disposed on the sliding seat 30 and located at two sides of the guide wall 303. The guiding wall 303 is used for guiding the power locking structure 40, and the guiding protrusion 304 is used for pushing the power locking structure 40 to rotate. When the sliding seat 30 moves from the first position to the second position, the guide wall 303 will contact the latch structure 50 and be locked in the second position by the latch structure 50; the guide projection 304 will contact and push the power locking structure 40 from the first angle to the second angle and hold the power locking structure 40 at the second angle.

In some embodiments, the compartment opening is provided with a compartment door (not labeled) for closing the battery compartment.

In some embodiments, the number of the sliding holes 301 is two, and the sliding holes 301 are symmetrically disposed at two ends of the third receiving groove 302, and the sliding seat 30 can slide on the sliding rod 202 through the sliding holes 301.

In some embodiments, the guide wall 303 is provided with a guide ramp (not shown) for cooperatively urging the slide mount lock assembly 50 to rotate.

Referring to fig. 4, the power locking structure 40 includes a locking reset unit 404, and the locking reset unit connects the power locking structure 40 and the fixing base 10. The power locking structure 40 is rotatable between a first angle and a second angle relative to the sliding seat 30 about the second direction. The power locking structure 40 is provided with a sliding arm 401, a clamping arm 402 and a rotating hole 403, the sliding arm 401 is connected with the clamping arm 402 at a certain angle, and the rotating hole 403 is arranged at the joint of the sliding arm 401 and the clamping arm 402. The clamping arm 402 is used for locking the mobile power supply 100, and the sliding arm 401 serves as a force arm when being stressed, so that the power supply locking structure 40 can rotate.

Specifically, the locking reset structure 404 is configured to drive the power locking structure 40 to rotate to the first angle, when the mobile power supply 100 is inserted into the sliding seat 30 and pushes the sliding seat 30 to move from the first position to the second position in an abutting manner, the guide wall 303 abuts against and pushes the sliding arm 401 to rotate from the first angle to the second angle, and meanwhile, the clamping arm 402 clamps and locks the mobile power supply 100, so that the power locking structure 40 completes a locking action, and the locking reset structure 404 is in a state where potential energy gradually increases. When the mobile power supply slides with the sliding seat 30 from the second position to the first position, the sliding arm 401 rotates from the second angle to the first angle under the action of potential energy release of the locking reset structure 404, and at this time, the clamping arm 402 abuts against the limiting structure 101 and keeps the power supply locking structure 40 at the first angle. When the power locking structure 40 is at the first angle, the power locking structure 40 is in an unlocked state, at this time, the clamping arm 402 abuts against the limiting structure 101, and when the power locking structure 40 rotates to the second angle, the power locking structure 40 is in a locked state, at this time, the clamping arm 402 is disengaged from the limiting structure. When the power locking structure 40 is rotated from the second angle to the first angle, the clamping arm 402 maintains the power locking structure 40 at the first angle by contacting the stopper structure 101.

In some embodiments, the number of the power locking structures 40 is two and the two power locking structures are symmetrically disposed at two ends of the fixing base 10 in the second direction.

In some embodiments, the locking reset mechanism 404 is a torsion spring having a first leg (not shown) connected to the clamping arm 402 of the power locking mechanism 40 and a second leg (not shown) abutting against the fixing base 10. When the sliding seat 30 moves from the first position to the second position, the guide wall 303 pushes the sliding arm 401, and the sliding arm 401 drives the power locking structure 40 to move from the first angle to the second angle, at this time, the clamping arm 402 pushes the first leg to move, so that the torsion spring accumulates elastic potential energy. When the sliding seat 30 moves from the second position to the first position, the sliding seat 30 provides the sliding arm 30 with a pushing force for moving from the second position to the first position, and meanwhile, the clamping arm 402 drives the power locking structure 40 to move from the second angle to the first angle under the action of the elastic potential energy of the torsion spring, and when the power locking structure 40 is at the first angle, the torsion spring is in an elastic deformation state and still has an initial elastic potential energy, and the limiting structure 101 is matched to limit the power locking structure 40 to ensure that the power locking structure 40 is stabilized at the first angle.

The slide housing locking assembly 50 includes a push plate 501, a latch pivot arm 502, a pivot 503, and a latch reset unit 504. The push plate 501 and the locking rotating arm 502 are connected at a certain angle, the rotating shaft 503 is arranged at the joint of the push plate 501 and the locking rotating arm 502, and the locking reset unit 504 is installed on the locking rotating shaft 102. The slide lock assembly 50 is rotatably disposed in the rotation slot 103 and the slide lock assembly 50 can rotate around the rotation shaft 503 between a first rotation angle and a second rotation angle, and the latch resetting unit 504 is configured to drive the slide lock assembly 50 to rotate from the second rotation angle to the first rotation angle.

Specifically, the latch rotating arm 502 includes a hook (not shown), the hook is provided with a guiding inclined surface (not shown) and an engaging surface (not shown), when the sliding seat 30 moves from the first position to the second position, the sliding seat 30 pushes the latch rotating arm 502 under the action of the guiding inclined surface, so that the sliding seat locking assembly 50 rotates from the first rotation angle to the second rotation angle, after the sliding seat 30 passes through the guiding inclined surface, the sliding seat locking assembly 50 rotates from the second rotation angle to the first rotation angle under the action of the latch resetting unit 504, and at this time, the sliding seat 30 is guided to a side of the engaging surface facing through the guiding inclined surface, so that the engaging surface engages with the sliding seat 30.

The locking driving structure 60 is installed on the installation groove 104, and the locking driving structure 60 is connected with the push plate 501. When the latch driving structure 60 is activated, the latch driving structure 60 will push the push plate 501 to move, and at the same time, the slide lock assembly 50 will move from the first rotation angle to the second rotation angle, and at this time, the slide lock assembly 50 will unlock the slide 30, so that the slide 30 can slide from the second position to the first position.

In some embodiments, the latch actuation structure 60 is a push-pull solenoid valve.

In some embodiments, the latch returning unit 504 is a torsion spring, and the number of the torsion springs is two and the two torsion springs are respectively installed at both ends of the second rotating shaft. The torsion spring gradually accumulates elastic potential energy as the shoe lock assembly 50 moves from the first rotational angle to the second rotational angle, and releases the elastic potential energy to rotate the shoe lock assembly 50 from the second rotational angle to the first rotational angle when the shoe lock assembly 50 is not subjected to the force from the guide wall 303 and the latch actuation structure 60.

The mobile power supply 100 is provided with a locking groove (not shown), and the locking groove is used for matching with the power supply locking structure 40 to lock the mobile power supply 100. When the mobile power supply 100 is inserted into the battery compartment and pushes the sliding seat 30 to move from the first position to the second position, the locking groove corresponds to the power supply locking structure 40, the power supply locking structure 40 rotates from the first angle to the second angle, and the power supply locking structure 40 and the locking groove are matched to lock the mobile power supply 100. Meanwhile, the sliding seat locking assembly 50 rotates from the first rotation angle to the second rotation angle in the process of the contact between the guiding inclined plane and the guiding inclined plane, and after the guiding inclined plane is separated from the guiding inclined plane, the sliding seat locking assembly 50 rotates from the second rotation angle to the first rotation angle under the action of the locking reset unit 504, and at the moment, the hook is clamped with the guiding wall 303 to complete the locking step of the sliding seat 30. To this end, the mobile power source 100 is locked in the battery compartment.

The utility model provides a portable power source leased cabinet (not shown), portable power source leased cabinet includes the aforesaid battery compartment subassembly 1 and the cabinet body (not shown), the battery compartment unit mount in the cabinet body, the structure and the function of battery compartment subassembly 1 please refer to above-mentioned embodiment, and here is no longer repeated one by one.

The utility model also provides a portable power source lease cabinet system 9 (not shown), portable power source lease cabinet system includes the aforesaid portable power source lease cabinet and portable power source 100. The mobile power supply 100 is used for being inserted into the battery compartment assembly 1 of the mobile power supply leasing cabinet.

It should be noted that the preferred embodiments of the present invention are described in the specification and the drawings, but the present invention can be realized in many different forms, and is not limited to the embodiments described in the specification, and these embodiments are not provided as additional limitations to the present invention, and are provided for the purpose of making the understanding of the disclosure of the present invention more thorough and complete. Moreover, the above technical features are combined with each other to form various embodiments which are not listed above, and all the embodiments are regarded as the scope of the present invention; further, modifications and variations will occur to those skilled in the art in light of the foregoing description, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

Claims

1. A battery compartment assembly, comprising:

a fixed seat;

the sliding seat locking assembly is matched and locked with the sliding seat;

2. The battery cartridge assembly of claim 1, wherein the sliding seat is provided with a guide wall and a guide projection;

the power locking structure comprises a sliding arm;

3. The battery compartment assembly of claim 2, wherein the guide protrusions are disposed on the sliding seat at two sides of the guide wall, and the guide protrusions are used for pushing the power locking structure to rotate.

4. The battery compartment assembly of claim 1, wherein the power locking structure further comprises a locking reset unit, the locking reset unit is a torsion spring, and the locking reset unit is configured to provide an elastic force for driving the power locking structure to rotate or maintain to the first angle.

5. The battery cartridge assembly of claim 1, further comprising an upper cover; the upper cover comprises an upper cover body and a sliding seat ejection mechanism;

6. The battery compartment assembly of claim 4, wherein the holder is provided with a limit feature;

7. The battery compartment assembly of any one of claims 1-6, wherein the fixed seat and the sliding seat together form a battery compartment;

8. The battery cartridge assembly of claim 5, wherein the sliding seat is provided with a sliding hole;

9. A portable power source lease cabinet, characterized by comprising:

a cabinet body;

the battery compartment assembly of any one of claims 1 to 8 mounted to the cabinet.

10. A portable power source rental cabinet system, comprising:

the mobile power rental cabinet of claim 9;