CN219269312U - Charging bin module - Google Patents

Abstract

The application provides a storehouse module charges relates to storehouse technical field that charges. A charging bin module comprises a charging bin main body, a mounting plate, a plurality of ejecting assemblies and a plurality of locking assemblies; the charging bin main body comprises a plurality of bin bodies which are distributed at intervals along a first direction, one end of the bin body along a second direction is provided with an opening, the bin body is also provided with a containing cavity for placing a mobile power supply, and the opening is communicated with the containing cavity; the mounting plate is arranged at one end of the charging bin main body, which is away from the bin body opening along the second direction, and the projection area of the mounting plate is not smaller than the projection area of the charging bin main body along the second direction; the mounting plate is provided with a plurality of induction areas which are arranged at intervals along the first direction, and each induction area is provided with an induction element. The setting through the mounting panel can be with popping out subassembly and induction piece and carry out integrated assembly, and the area of mounting panel can be increased in the setting of mounting panel projection area, promotes the integration and the modularization of mounting panel, can improve the efficiency of installation wiring.

Description

Charging bin module

Technical Field

The application relates to the technical field of charging bins, in particular to a charging bin module.

Background

With the development of technology, electronic devices such as mobile phones have become an indispensable part of life of people, but charging of electronic devices such as outdoor mobile phones has become a major problem. Therefore, the problem that the mobile phone is charged outdoors can be solved by the generation of the mobile power supply. The mobile power supply is a charger which can be carried by a person and can store electric energy.

Along with the generation of the mobile power supply, in order to be more convenient for people to go out, mobile power supply charging piles are arranged at places such as a mall and the like, so that people can borrow and return the mobile power supply conveniently. A portable power source charging stake is a device that can receive and charge a portable power source. In the prior art, a charging bin is arranged in a charging pile of a mobile power supply so as to place the mobile power supply. However, the existing charging bin has the problems of complex installation and loose parts, and is inconvenient to install and wire.

Disclosure of Invention

Based on this, it is necessary to provide a charging bin module which is more integrated and convenient to install.

A charging bin module comprises a charging bin main body, a mounting plate, a plurality of ejecting assemblies and a plurality of locking assemblies; the charging bin main body comprises a plurality of bin bodies, the bin bodies are arranged at intervals along a first direction, one end of the bin body along a second direction is provided with an opening, the other end of the bin body is provided with a through hole, one end of the bin body along a third direction is provided with an avoidance opening, the bin body is also provided with an accommodating cavity for accommodating a mobile power supply, and the opening, the through holes and the avoidance opening are respectively communicated with the accommodating cavity; the mounting plate is arranged at one end of the charging bin main body, which is away from the bin opening along the second direction, the mounting plate is provided with a plurality of first mounting holes which are arranged at intervals along a first direction, and each first mounting hole is coaxially arranged with the through hole on each bin body; along a second direction, the projection area of the mounting plate is not smaller than the projection area of the charging bin main body; the mounting plate is provided with a plurality of induction areas which are arranged at intervals along a first direction, and each induction area is provided with an induction element; each ejecting assembly penetrates through one first mounting hole and one through hole and is mounted on the corresponding bin body; each locking assembly is arranged outside the bin body and is arranged at intervals along the first direction, and each locking assembly corresponds to one sensing area; every locking subassembly all includes locking piece and response piece, locking piece and response piece are connected, the locking piece can be followed the third direction is removed in order to be relative dodge the mouth stretches into or withdraws, just the response piece can be in the locking piece stretches into the time trigger sensing element.

It can be understood that a plurality of mobile power sources can be installed simultaneously by arranging a plurality of bin bodies, so that the mobile power sources are convenient for a plurality of people to use together; the locking piece in the locking component can lock the mobile power supply, and the matching of the sensing element and the sensing piece in the locking component can detect the locking state of the mobile power supply; the ejecting assembly has a pushing force on the mobile power supply, and can push the mobile power supply out of the bin body, so that the mobile power supply is convenient to take. Wherein, utilize the setting of mounting panel can be with popping out the subassembly and integrating the assembly with the induction piece, the area of mounting panel can be increased in the setting of mounting panel projection area, and the mounting panel of being convenient for will a plurality of subassembly and a plurality of inductive element integration on the mounting panel for the mounting panel integrates more, and simultaneously, the setting of induction zone also makes the mounting panel more modularization. When installing the wiring, the installation of a plurality of spare parts only need carry out the operation of dividing the module on the mounting panel, can improve the efficiency of installation wiring.

In one embodiment, a plurality of first installation protrusions are arranged at intervals outwards from one end of each bin body, which is away from the opening, a connecting hole is formed in each first installation protrusion, and a plurality of second installation holes are arranged on the installation plate at intervals along the first direction; the charging bin module comprises a locking piece, and the locking piece penetrates through the second mounting hole and stretches into the connecting hole to lock the mounting plate with the bin body.

It can be appreciated that the protruding setting of first installation is convenient for process out the connecting hole, makes connecting hole pore wall and second mounting hole pore wall cooperate with the retaining member respectively, locks the mounting panel through the effect of locking force.

In one embodiment, at least two of the bin bodies are provided with second mounting protrusions in an outward protruding mode at one end, away from the opening, of the bin body, the mounting plate is provided with more than two third mounting holes which are distributed at intervals, and the second mounting protrusions are clamped into the third mounting holes.

It can be understood that setting up the protruding and third mounting hole joint of second installation, the mounting panel of being convenient for is installed and is carried out preliminary location at the outside in-process of storehouse body, improves installation effectiveness.

In one embodiment, a mounting gap is arranged between the mounting plate and one end of the bin body, which is away from the opening; and/or the thickness of the mounting plate is 1.5mm-2mm.

It can be appreciated that the installation clearance is reserved so as to be convenient for accommodating various parts; the thickness of the mounting plate is set to ensure that the mounting plate has sufficient structural strength.

In one embodiment, the ejecting assembly includes a first push rod, a limit structure, and a first elastic member; the first elastic piece is arranged on the first push rod; one end of the first push rod penetrates through the through hole, a first limiting part is arranged on the first push rod along the axial direction of the first push rod, the first limiting part is connected with one end of the first elastic piece along the second direction, and the first limiting part can be abutted against the outward surface of the bin body; the limiting structure is sleeved on the first push rod, one end, close to the first limiting part, of the limiting structure is installed on the bin body or the mounting plate, the other end of the limiting structure is connected with the first elastic piece, and the first push rod penetrates through the limiting structure.

It can be understood that the first elastic piece generates elastic force through self elastic deformation, and the elastic force is transferred to the first push rod, so that the first push rod has an effect of pushing the mobile power supply towards the opening along the second direction. The first push rod is provided with a first limiting part which can limit the first push rod to move along the second direction. Simultaneously, the first spacing portion and limit structure cooperation can restrict the removal of first elastic component along the second orientation, and the promotion first elastic component can take place elastic deformation between limit structure and first spacing portion.

In one embodiment, the limiting structure comprises a sleeve, one side, close to the first limiting part, of the sleeve is provided with a mounting lug protruding outwards along the radial direction of the sleeve, and the sleeve is mounted on the bin body through the mounting lug; and/or the first limiting part comprises a bulge which is radially outwards along the first push rod, and the bulge is positioned in the sleeve.

It can be understood that the sleeve is sleeved outside the first elastic piece to protect the first elastic piece, and meanwhile, the sleeve also has a guiding effect of moving along the second direction on the first elastic piece, so that the first elastic piece is prevented from being deviated in the elastic deformation process as much as possible. The sleeve is convenient to install due to the fact that the sleeve is close to the mounting lug at one end of the first limiting part, and the structure is simple and easy to operate. The protruding setting only need processing radial outside structure on first push rod can, processing is simple, the manufacturing of being convenient for.

In one embodiment, the charging bin module comprises a contact mechanism, the contact mechanism is mounted on the mounting plate, a plurality of probes are arranged in the contact mechanism, the probes are arranged in a row at intervals along a third direction, the contact mechanism at least comprises two rows of probes, and the probes extend into the bin body and are used for detecting a mobile power supply and realizing current conduction.

It is understood that the contact mechanism can read the information of the mobile power supply and charge the mobile power supply through the probe; the contact area between the probes in more than two rows and the mobile power supply can be increased, and the contact with the mobile power supply is ensured.

In one embodiment, the locking assembly further comprises a magnetic member mounted at an end of the locking member facing away from the sensing piece; the magnetic piece is used for adsorbing the locking piece to move along a third direction so as to lock or unlock the mobile power supply.

It is understood that the magnetic member can generate magnetic force to control the movement of the locking member to lock or unlock the mobile power supply.

In one embodiment, the caliber of the bin body positioned at the opening is gradually expanded outwards along the axial direction of the bin body.

It will be appreciated that the diverging opening arrangement has a guiding effect on the placement of the mobile power supply.

In one embodiment, the charging bin module further comprises a cover plate, and the cover plate is installed at one end of the charging bin main body, which is away from the mounting plate; the cover plate is provided with a plurality of bin gates, and each bin gate is positioned at the opening of the corresponding bin body and is rotationally connected with the cover plate.

It can be understood that the setting of apron shelters from the storehouse main part inner structure that charges, does benefit to pleasing to the eye. The arrangement of the bin gate can shield the inner structure of the bin body, reduce the entry of dust and impurities and is favorable for beauty.

Drawings

In order to more clearly illustrate the technical solutions of embodiments or conventional techniques of the present application, the drawings that are required to be used in the description of the embodiments or conventional techniques will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person of ordinary skill in the art.

Fig. 1 is an exploded view of a charging bin module provided in the present application;

fig. 2 is a perspective view of a charging bin module provided in the present application;

fig. 3 is a perspective view of a charging bin main body in the charging bin module provided by the application;

fig. 4 is a rear view of a charging cartridge body in the charging cartridge module provided herein;

FIG. 5 is a cross-sectional view of a solenoid valve in the charging cartridge module provided herein;

FIG. 6 is a perspective view of a solenoid valve in the charging bin module provided by the application;

fig. 7 is a rear view of a mounting plate in a charging bin module provided herein.

Reference numerals: 100. a charging bin module; 10. a charging bin body; 11. a bin body; 111. an opening; 112. a through hole; 113. an avoidance port; 114. a first mounting projection; 115. a second mounting projection; 1141. a connection hole; 1101. a cavity is arranged; 20. a mounting plate; 21. a first mounting hole; 22. a second mounting hole; 23. a third mounting hole; 30. an ejector assembly; 31. a first push rod; 32. a limit structure; 33. a first elastic member; 311. a first limit part; 40. a locking assembly; 41. a locking member; 42. an induction piece; 43. a magnetic core; 44. a coil; 45. a fixing plate; 46. a second elastic member; 50. an inductive element; 60. a contact mechanism; 70. a cover plate; 71. and a bin gate.

Detailed Description

In order to make the above objects, features and advantages of the present application more comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is, however, susceptible of embodiment in many other forms than those described herein and similar modifications can be made by those skilled in the art without departing from the spirit of the application, and therefore the application is not to be limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like are used in the description of the present application for purposes of illustration only and do not represent the only embodiment.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" is at least two, such as two, three, etc., unless explicitly defined otherwise.

In this application, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be a direct contact of the first feature with the second feature, or an indirect contact of the first feature with the second feature via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely under the second feature, or simply indicating that the first feature is less level than the second feature.

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

Referring to fig. 1 to 7, the present application provides a charging bin module 100, where the charging bin module 100 includes a charging bin main body 10 and a mounting plate 20; the charging bin main body 10 comprises a plurality of bin bodies 11, the bin bodies 11 are distributed at intervals along the first direction, an opening 111 is formed in one end of the bin bodies 11 along the second direction, a through hole 112 is formed in the other end of the bin bodies 11, an avoidance opening 113 is formed in one end of the bin bodies 11 along the third direction, a containing cavity 1101 is further formed in the bin bodies 11 and used for containing a mobile power supply, and the opening 111, the plurality of through holes 112 and the avoidance opening 113 are respectively communicated with the containing cavity 1101.

The mounting plate 20 is arranged at one end of the charging bin main body 10, which is away from the opening 111 of the bin body 11 along the second direction; in the second direction, the projected area of the mounting plate 20 is not smaller than the projected area of the charging bin main body 10; the mounting plate 20 is provided with a plurality of sensing regions spaced apart in a first direction, each of which is provided with a sensing element 50.

In this way, a plurality of bin bodies 11 are correspondingly arranged in one charging bin main body 10 and can accommodate a plurality of mobile power sources, so that the charging bin is convenient for multiple people to use together; the provision of the opening 111 facilitates the movement of the power supply opening 111 into the cartridge body 11. Along the second direction, the projection area of the mounting plate 20 is set such that the mounting plate 20 can cover an entire side surface of the charging bin main body 10 facing away from the opening 111, that is, the mounting plate 20 has a large enough area for mounting more components, and the mounting plate 20 is more integrated. The mounting plate 20 is also provided with sensing zones for mounting sensing elements 50, the zoned arrangement making the mounting plate 20 more modular. During installation, only the operation is needed on the mounting plate 20, the installation wiring is carried out in different areas, other installation structures are not needed to be additionally arranged, scattered parts become orderly and circulated, and the efficiency of the installation wiring can be improved.

To better illustrate the integration, modularity and ease of installation of the mounting plate 20, the description of the components mounted on the mounting plate 20 will be provided. It should be noted that, in the embodiment of the present application, the first direction is defined as a gravity direction when the charging bin module is normally placed and used, the second direction is defined as a thickness direction of the mounting plate 20, and the third direction is set as a direction perpendicular to the first direction and perpendicular to the second direction.

In a preferred embodiment, as shown in fig. 1, the charging cartridge module 100 further includes a plurality of ejection assemblies 30. To mount the ejection assemblies 30, the mounting plate 20 is configured with a plurality of first mounting holes 21 spaced apart in the first direction, each first mounting hole 21 being disposed coaxially with the through hole 112 in each cartridge body 11, and each ejection assembly 30 being disposed through one first mounting hole 21 and one through hole 112 and mounted on the corresponding cartridge body 11. As such, a plurality of ejection assemblies 30 can be integrated on the mounting plate 20 without additional mounting structure mounting. The ejecting assembly 30 can avoid the mobile power supply when the mobile power supply returns into the bin body 11; after the portable power source is leased, the ejecting assembly 30 can push the portable power source Shi Jiayan out of the bin 11 by pushing the portable power source in the second direction, so that the portable power source is convenient to take.

Further, as shown in fig. 1, the ejecting assembly 30 includes a first push rod 31, a limiting structure 32, and a first elastic member 33; the first elastic member 33 is mounted on the first push rod 31; one end of the first push rod 31 passes through the through hole 112, the first push rod 31 is provided with a first limiting part 311 along the axial direction of the first push rod 31, the first limiting part 311 is connected with one end of the first elastic piece 33 along the second direction, and the first limiting part 311 can be abutted against the outward surface of the bin body 11; the limiting structure 32 is sleeved on the first push rod 31, one end of the limiting structure 32, which is close to the first limiting part 311, is installed on the bin body 11 or the mounting plate 20, the other end of the limiting structure 32 is connected with the first elastic piece 33, and the first push rod 31 is penetrated with the limiting structure 32.

So, first push rod 31 can follow the second direction round trip movement, set up first spacing portion 311 on the first push rod 31 and then can carry out spacingly to the removal of first push rod 31 along the second direction, avoid first push rod 31 to all get into in the storehouse body 11. The arrangement of the first elastic member 33 can provide a power source for the movement of the first push rod 31, two ends of the first elastic member 33 along the second direction are respectively limited by the limiting structure 32 and the first limiting portion 311, and under the condition that the limiting structure 32 is kept fixed, the first elastic member 33 is elastically deformed through the movement of the first limiting portion 311, and in turn, an elastic effect is generated on the first limiting portion 311, so that the movement of the first push rod 31 can be pushed. Specifically, when the mobile power supply returns to the bin 11, the mobile power supply abuts against the first push rod 31, and pushes the first push rod 31 out of the bin 11 along the second direction. Since one end of the first elastic member 33 abuts against the limiting structure 32 and the other end moves in the same direction along with the first push rod 31, the first elastic member 33 is compressed in the process, and generates an elastic force on the first push rod 31 through abutting against the first limiting portion 311. After the portable power source is leased, the portable power source is unlocked in the process of being taken, and under the action of the elastic force of the first elastic piece 33, the first push rod 31 pushes the portable power source out of the bin body 11 along the second direction, and meanwhile, the first elastic piece 33 is reset.

In a more specific embodiment, the limiting structure 32 includes a sleeve, and a mounting lug protruding outwards along the radial direction of the sleeve is disposed on one side of the sleeve, which is close to the first limiting portion 311, and the sleeve is mounted on the bin body 11 through the mounting lug. In this way, the sleeve can be directly sleeved on the first push rod 31, the cylindrical structure can protect the first elastic piece 33, the condition that the first elastic piece 33 is interfered by impurities or foreign matters is reduced, meanwhile, the inner wall of the cylinder has a radial limiting effect on the first elastic piece 33, the first elastic piece 33 is prevented from being deviated in the deformation process as much as possible, and the first elastic piece 33 has a guiding effect along the axial direction of the first push rod 31. The setting of installation ear is convenient for install the sleeve on the storehouse body 11 (of course the installation ear also can install on mounting panel 20, can realize the fixed of sleeve one end can), and the sleeve deviates from the bottom of first spacing portion 311 and can effectively spacing first elastic component 33, its simple structure, simple to operate.

Further, the first limiting portion 311 includes a protrusion radially outward along the first push rod 31, and the protrusion is located in the sleeve. In this way, the first push rod 31 can be directly provided with the projection, and the production and the manufacturing are simple. Specifically, in order to achieve better fixation, the protrusions are uniformly distributed along the circumferential direction of the first push rod 31, so that each portion of the protrusions can uniformly contact with the first elastic member 33, and the first push rod 31 is more uniformly subjected to the elastic force of the first elastic member 33.

As shown in fig. 5 and 6, the charging bin module 100 further includes a plurality of locking assemblies 40, each locking assembly 40 is mounted outside the bin 11 and is arranged at intervals along the first direction, and each locking assembly 40 corresponds to one sensing area; each of the locking assemblies 40 includes a locking member 41 and a sensing piece 42, the locking member 41 and the sensing piece 42 are connected, the locking member 41 can move in a third direction to be extended or retracted with respect to the escape opening 113, and the sensing piece 42 can trigger the sensing element 50 when the locking member 41 is extended. That is, the locking assembly 40 can cooperate with the sensing element 50 to determine the locked state of the mobile power supply. Specifically, when the mobile power supply returns to the bin 11, the locking member 41 extends into the avoidance port 113 to lock the mobile power supply, and meanwhile, the sensing piece 42 can move to a position close to the avoidance port 113 to cooperate with the sensing element 50, so as to determine that the mobile power supply is locked. When the portable power source is leased, the locking member 41 is retracted from the avoidance port 113, the locking of the portable power source is canceled, and meanwhile, the sensing piece 42 is moved to a position away from the avoidance port 113, and the sensing element 50 loses sensing with the sensing piece 42, so as to determine that the portable power source has been leased.

As shown in fig. 5 and 6, in a preferred embodiment, the locking assembly 40 further includes a magnetic member, and the locking member 41 is configured as a limiting shaft, and the magnetic member is mounted at one end of the limiting shaft; the magnetic piece is used for adsorbing the limiting shaft to move along a third direction so as to lock or unlock the mobile power supply. One end of the limiting shaft, which is away from the magnetic piece, is further connected with the sensing piece 42, and the sensing piece 42 can synchronously move with the limiting shaft. Thus, the magnetic member can provide a power source for the movement of the limiting shaft, and the limiting shaft can drive the sensing piece 42 to move while moving back and forth. Specifically, when the limiting shaft locks the power supply, the sensing piece 42 cooperates with the sensing element 50 to send out a signal that the power supply is locked, and when the limiting shaft unlocks the power supply, the sensing piece 42 does not cooperate with the sensing element 50 to send out a signal that the power supply is unlocked.

As shown in fig. 5 and 6, in a specific embodiment, the locking assembly 40 further includes a coil 44, a fixing plate 45, and a second elastic member 46, where the coil 44 is sleeved on the limiting shaft, and the magnetic member includes a magnetic core 43, where the magnetic core 43 is installed in the coil 44, and the magnetic core 43 and the limiting shaft are located on the same axis. The fixed plate 45 is sleeved on the limiting shaft and is positioned at one end close to the magnetic part, the second elastic part 46 is sleeved on the limiting shaft, one axial end of the second elastic part 46 along the limiting shaft is fixed on the fixed plate 45, the other end of the second elastic part is fixed on the limiting shaft, and the sensing piece 42 is positioned at one end, deviating from the fixed plate 45, of the second elastic part 46. When the power is leased, the coil 44 is energized, the magnetic core 43 generates a magnetic attraction force under the electromagnetic induction action, and the spacing shaft is attracted to move towards the magnetic core 43, and the second elastic member 46 is compressed along with the movement of the spacing shaft due to the fixed plate 45. Meanwhile, the limiting shaft is far away from the avoiding opening 113, so that locking of the mobile power supply is canceled, the mobile power supply can be taken out, the movement of the limiting shaft drives the movement of the sensing piece 42, the sensing piece 42 is far away from the sensing element 50, and the sensing element 50 detects that the mobile power supply is not locked. When the mobile power supply is returned, the coil 44 is powered off, the magnetic core 43 does not generate the action of magnetic attraction any more, the second elastic piece 46 is in a compressed state, the limiting shaft is pushed to move towards the avoidance opening 113 along the elastic action of the avoidance opening 113 along the third direction, the limiting shaft extends out of the avoidance opening 113 to be matched with a notch on the mobile power supply so as to lock the mobile power supply, the limiting shaft drives the induction piece 42 to synchronously move while moving, the induction piece 42 is close to the induction element 50 and is matched with the induction element 50, and the induction element 50 detects that the mobile power supply is locked. The sensing element 50 can be one or more of a travel switch, a photoelectric switch and a hall element, as the actual need requires.

In a preferred embodiment, as shown in fig. 1, the charging bin module 100 includes a contact mechanism 60, the contact mechanism 60 is mounted on the mounting plate 20, a plurality of probes are disposed in the contact mechanism 60, the plurality of probes are arranged in a row at intervals along the third direction, and the contact mechanism 60 includes at least two rows of probes, and the probes extend into the bin 11 to realize current conduction. Generally, the number of contact mechanisms 60 matches the number of cartridge bodies 11. In this way, after the portable power source is returned to the housing 11, the contact mechanism 60 can be brought into contact with the portable power source through the probe to acquire portable power source information and charge the portable power source for subsequent use. Providing more than two rows of probes can increase the area of contact with the mobile power supply to ensure that the contact mechanism 60 can reliably contact with the mobile power supply.

In the embodiment of the present application, the first elastic member 33 and the second elastic member 46 are springs, and the corresponding springs can be selected according to the actual working conditions. Of course, in other embodiments, the first elastic member 33 and the second elastic member 46 may also be other elastic members, so long as the above-mentioned effects can be achieved, and no specific limitation is imposed herein.

According to the above, the ejecting assembly 30, the locking assembly 40, the sensing element 50 and the contact mechanism 60 are all mounted on the mounting plate 20, so that the components are more integrated and modularized, and are more convenient to mount. Further details regarding the placement of the mounting plate 20 itself are provided below.

As shown in fig. 4 and 7, in a preferred embodiment, a plurality of first mounting protrusions 114 are protruded outwards from one end of each bin 11 facing away from the opening 111, a connection hole 1141 is formed in each first mounting protrusion 114, and a plurality of second mounting holes 22 are formed in the mounting plate 20 along the first direction at intervals; the charging cartridge module 100 includes a locking member that passes through the second mounting hole 22 and extends into the connecting hole 1141 to lock the mounting plate 20 with the cartridge body 11. So, the setting of the protruding 114 of first installation can protect the structural strength of storehouse body 11 itself, and is convenient for set up out connecting hole 1141 through the protruding 114 of first installation, and the retaining member has the effect of locking force to connecting hole 1141 pore wall and second mounting hole 22 pore wall, and the retaining member of being convenient for uses the retaining member to lock storehouse body 11 and mounting panel 20, and the installation is reliable. Generally, the locking piece can be in threaded connection by adopting a screw, and the locking piece is simple and easy to operate.

As shown in fig. 4 and 7, in a further embodiment, at least two ends of the bin bodies 11 facing away from the opening 111 are further provided with second mounting protrusions 115 in an outward protruding manner, the mounting plate 20 is provided with more than two third mounting holes 23 arranged at intervals, and the single second mounting protrusions 115 are clamped into the single third mounting holes 23. In this way, the second mounting protrusion 115 can play a role in positioning during the mounting of the mounting plate 20, which is beneficial to improving the mounting efficiency. Specifically, when the mounting plate 20 is mounted, the third mounting hole 23 on the mounting plate 20 is clamped with the second mounting protrusion 115, so as to realize preliminary positioning of the mounting plate 20, and then a plurality of locking pieces are respectively inserted into the corresponding second mounting hole 22 and the connecting hole 1141, so as to realize further locking.

A mounting gap is provided between the mounting plate 20 and an end of the housing 11 facing away from the opening 111. Thus, the mounting gap can accommodate the components so as to make full use of the board space of the mounting board 20, thereby promoting integration of the mounting board 20.

In a preferred embodiment, the mounting plate 20 has a thickness of 1.5mm-2mm. In this way, the mounting plate 20 can be ensured to have sufficient strength to support the mounting of a plurality of parts, and the design can be made as slim as possible while ensuring structural strength. In particular embodiments, the thickness of the mounting plate 20 is set to 1.5mm, 1.8mm, or 2mm.

The specific arrangement of the mounting plate 20 is also described above, and the structure of the bin 11 is optimized in this application, as will be described below.

In a preferred embodiment, as shown in fig. 3, the bore of the cartridge body 11 at the opening 111 tapers axially outwardly of itself. So set up, in the in-process that portable power source placed into the storehouse body 11, have the guide effect to portable power source. On one hand, the caliber of the opening 111 towards the outside is increased, so that the mobile power supply can extend into the accommodating cavity 1101; on the other hand, in the process of moving the mobile power supply into the bin body 11, the caliber of the opening 111 gradually decreases, and the cavity wall at the opening 111 guides the mobile power supply to move inwards along the cavity wall.

As shown in fig. 2, in a preferred embodiment, the charging cartridge module 100 further includes a cover plate 70, the cover plate 70 being mounted at an end of the charging cartridge body 10 facing away from the mounting plate 20; the cover plate 70 is provided with a plurality of bin gates 71, and each bin gate 71 is positioned at an opening 111 of the corresponding single bin body 11 and is rotatably connected with the cover plate 70. In this way, the cover plate 70 can shield the internal structure of the charging bin body 10, protect the internal structure of the charging bin body 10, and is beneficial to attractive appearance. The bin gate 71 can cover the bin body 11, protect the mobile power supply and the internal structure of the bin body 11, and prevent the impurity foreign matters from entering the bin body 11 as much as possible to damage the bin body 11.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples only represent a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the claims. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of the present application is to be determined by the following claims.

Claims (10)

1. A charging bin module, comprising:

the charging bin main body (10) comprises a plurality of bin bodies (11), wherein a plurality of bin bodies (11) are distributed at intervals along a first direction, one end of each bin body (11) along a second direction is provided with an opening (111), the other end of each bin body is provided with a through hole (112), one end of each bin body (11) along a third direction is provided with an avoidance opening (113), the bin bodies (11) are further provided with a containing cavity (1101) for containing a mobile power supply, and the openings (111), the plurality of through holes (112) and the avoidance openings (113) are respectively communicated with the containing cavity (1101);

the mounting plate (20) is mounted at one end of the charging bin main body (10) facing away from the opening (111) of the bin body (11) along the second direction, a plurality of first mounting holes (21) are formed in the mounting plate (20) at intervals along the first direction, and each first mounting hole (21) and the through hole (112) in each bin body (11) are coaxially arranged; along a second direction, the projection area of the mounting plate (20) is not smaller than the projection area of the charging bin main body (10); the mounting plate (20) is provided with a plurality of induction areas which are arranged at intervals along a first direction, and each induction area is provided with an induction element (50);

a plurality of ejecting assemblies (30), wherein each ejecting assembly (30) is arranged through one first mounting hole (21) and one through hole (112) in a penetrating way and is mounted on the corresponding bin body (11);

a plurality of locking assemblies (40), wherein each locking assembly (40) is arranged outside the bin body (11) at intervals along the first direction, and each locking assembly (40) corresponds to one sensing area; each locking assembly (40) comprises a locking piece (41) and a sensing piece (42), the locking piece (41) is connected with the sensing piece (42), the locking piece (41) can move along the third direction to extend into or retract from the avoidance opening (113), and the sensing piece (42) can trigger the sensing element (50) when the locking piece (41) extends into.

2. The charging bin module according to claim 1, wherein a plurality of first mounting protrusions (114) are arranged at intervals outwards and convexly at one end of each bin body (11) facing away from the opening (111), a connecting hole (1141) is formed in each first mounting protrusion (114), and a plurality of second mounting holes (22) are formed in the mounting plate (20) at intervals along the first direction;

the charging bin module (100) comprises a locking piece, and the locking piece penetrates through the second mounting hole (22) and stretches into the connecting hole (1141) to lock the mounting plate (20) and the bin body (11).

3. The charging bin module according to claim 2, wherein at least two of the bin bodies (11) are further provided with second mounting protrusions (115) protruding outwards from one end facing away from the opening (111), the mounting plate (20) is provided with more than two third mounting holes (23) distributed at intervals, and a single second mounting protrusion (115) is clamped into a single third mounting hole (23).

4. A charging cartridge module according to claim 3, characterized in that a mounting gap is provided between the mounting plate (20) and an end of the cartridge body (11) facing away from the opening (111); and/or the thickness of the mounting plate (20) is 1.5mm-2mm.

5. The charging cartridge module according to claim 1, wherein the ejection assembly (30) comprises a first push rod (31), a limit structure (32) and a first elastic member (33);

the first elastic piece (33) is arranged on the first push rod (31);

one end of the first push rod (31) penetrates through the through hole (112), a first limiting part (311) is arranged on the first push rod (31) along the axial direction of the first push rod, the first limiting part (311) is connected with one end of the first elastic piece (33) along the second direction, and the first limiting part (311) can be abutted against the outward surface of the bin body (11);

the limiting structure (32) is sleeved on the first push rod (31), one end, close to the first limiting part (311), of the limiting structure (32) is installed on the bin body (11) or the mounting plate (20), the other end of the limiting structure is connected with the first elastic piece (33), and the first push rod (31) penetrates through the limiting structure (32).

6. The charging bin module according to claim 5, wherein the limit structure (32) comprises a sleeve, a mounting lug protruding outwards along the radial direction of the sleeve is arranged on one side of the sleeve, which is close to the first limit part (311), and the sleeve is mounted on the bin body (11) through the mounting lug; and/or

The first limiting part (311) comprises a protrusion radially outwards along the first push rod (31), and the protrusion is positioned in the sleeve.

7. The charging bin module according to claim 1, wherein the charging bin module (100) comprises a contact mechanism (60), the contact mechanism (60) is mounted on the mounting plate (20), the contact mechanism (60) is provided with a plurality of probes, the probes are arranged in a row at intervals along a third direction, the contact mechanism (60) at least comprises two rows of probes, and the probes extend into the bin body (11) for realizing current conduction.

8. The charging cartridge module according to claim 1, wherein the locking assembly (40) further comprises a magnetic member mounted at an end of the locking member (41) facing away from the sensing tab (42); the magnetic piece is used for adsorbing the locking piece (41) to move along a third direction so as to lock or unlock the mobile power supply.

9. Charging cartridge module according to claim 1, characterized in that the bore of the cartridge body (11) at the opening (111) tapers outwardly in the axial direction of the cartridge body.

10. The charging cartridge module according to claim 1, wherein the charging cartridge module (100) further comprises a cover plate (70), the cover plate (70) being mounted at an end of the charging cartridge body (10) facing away from the mounting plate (20); the cover plate (70) is provided with a plurality of bin gates (71), and each bin gate (71) is positioned at an opening (111) of a corresponding single bin body (11) and is rotationally connected with the cover plate (70).

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