CN210111640U - Charging module and portable power source equipment of rening - Google Patents

Abstract

The utility model relates to a module and portable power source equipment of rening charge, wherein, the module that charges includes the casing, sliding support, elastic element and the solenoid valve of delivery portable power source business turn over storehouse way. Two ends of the elastic element are respectively connected with the sliding support and the shell, and the charging module pops up the sliding support to move towards the bin opening by virtue of the elasticity of the elastic element, so that the mobile power supply pops up; the electromagnetic valve comprises a telescopic main shaft; the charging module locks the portable power source by means of the clamping cooperation formed by the extension of the main shaft of the electromagnetic valve and the portable power source in the warehouse, and unlocks the portable power source by controlling the retraction of the main shaft of the electromagnetic valve to release the clamping.

Description

Charging module and portable power source equipment of rening

Technical Field

The utility model relates to a charging device, especially a module and portable power source equipment of rening charge.

Background

In the portable power source leasing equipment in the prior art, one of the common charging modules is of a suction type, and the transmission mechanism has the advantages that: the self-suction and push-out of the mobile power supply can be realized, but the defect of good experience feeling is overcome, and the transmission mechanism is complex in overall structure, complex to assemble, high in manufacturing cost and large in occupied space. The module that charges commonly used still includes the formula of pushing into the lock storehouse, and its relatively take in formula structure is simplified relatively, and the equipment has been some simply, and the cost also reduces, its shortcoming: the portable power source needs manual active insertion, and foreign matters smaller than the width and the thickness of the bin body are inserted to lock the bin, so that the portable power source cannot return.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a charging module and portable power source lease equipment, solves the problem such as present charging module structure and equipment are complicated, with high costs, the mistake lock leads to unable return portable power source, and portable power source lease equipment takes up an area of the big scheduling problem.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a charging module comprises a shell, wherein the shell is limited with a bin passage for accommodating a mobile power supply and allowing the mobile power supply to enter and exit, and the front end of the bin passage is a bin passage opening; the charging module further comprises a sliding support, an elastic element and an electromagnetic valve, wherein the sliding support is used for carrying the mobile power supply to enter and exit the warehouse; two ends of the elastic element are respectively connected with the sliding support and the shell, and the charging module pops up the sliding support to move towards the bin opening by virtue of the elasticity of the elastic element, so that the mobile power supply pops up; the electromagnetic valve comprises a telescopic main shaft; the charging module is in clamping fit with the mobile power supply in the warehouse by means of extension of the main shaft of the electromagnetic valve, so that the mobile power supply is locked; the charging module unlocks the portable power source by controlling the main shaft of the electromagnetic valve to retract and release the clamping position.

The charging module comprises a module control component, and the module control component controls the charging and/or information transmission of the mobile power supply in the warehouse; the module control assembly is electrically connected with the electromagnetic valve and controls the electromagnetic valve to be powered on or off; the elastic element keeps the elastic deformation in the trend of popping out the sliding bracket outwards; when no mobile power supply exists in the warehouse or the mobile power supply is popped up, the elastic element is in a small deformation amount of stretching or compressing, and the elastic element pulls the sliding support to be close to the warehouse opening; the portable power source advances the storehouse way from the storehouse way mouth, and the sliding support moves inwards and stretches or compresses the elastic element to increase the deformation volume.

The main shaft of the electromagnetic valve keeps a forward natural extending state; the main shaft of the electromagnetic valve can automatically contract and move, and can retract and move towards the electromagnetic valve when being pushed by external force, or actively extend forwards and move when the external force is eliminated; when the electromagnetic valve is electrified, the main shaft of the electromagnetic valve moves in a retracting manner; after the electromagnetic valve is powered off, the main shaft of the electromagnetic valve automatically stretches and retracts and protects the natural stretching state.

The module control assembly controls the electromagnetic valve to be powered on only at the moment that the module pops up the mobile power supply or pops up the sliding support, and the electromagnetic valve is powered off at other times; the module control assembly controls the electromagnetic valve to be electrified so as to enable the electromagnetic valve spindle to retract, so that the mobile power supply is unlocked; the control assembly is a control circuit board.

The shell is provided with an elastic element mounting bin, and the elastic element can be elastically and telescopically mounted in the mounting bin and drives the sliding support to reciprocate; the shell is also provided with an electromagnetic valve installation cavity, the electromagnetic valve is installed in the electromagnetic valve installation cavity, the side wall of the shell between the electromagnetic valve installation cavity and the bin channel correspondingly limits a shaft hole, and a main shaft of the electromagnetic valve penetrates through the shaft hole and can move forwards or backwards out of the bin channel; the sliding support is movably arranged in the warehouse channel.

The elastic element mounting bin of the shell comprises a section of guide groove limited by a bin channel side wall; the sliding support comprises an elastic element mounting part and a mobile power supply accommodating bin; the mobile power supply accommodating bin is used for accommodating a mobile power supply and driving the mobile power supply to reciprocate in the bin passage along with the sliding support; the elastic element can be elastically and telescopically arranged in the guide groove, one end of the elastic element is arranged on the front end wall or the rear end wall of the guide groove, and the other end of the elastic element is arranged on the elastic element mounting part of the sliding bracket; the elastic element mounting part of the sliding support is slidably mounted in the guide groove and driven by the elastic element to reciprocate along the guide groove; the front end wall or the rear end wall of the guide groove is used as a limiting wall for the elastic element mounting part of the sliding support to move forwards or backwards in the guide groove.

The elastic element mounting bin is communicated with the bin channel; the elastic element mounting bin is formed by recessing a section of side wall of the bin channel; a section of concave side wall of the bin channel is connected with the front end wall and the rear end wall and encloses the guide groove; the elastic element mounting part of the sliding support is a protruding sliding block arranged on the outer side wall of the mobile power supply accommodating bin; the elastic element mounting part of the sliding bracket reciprocates back and forth between the front end wall and the rear end wall of the guide groove and compresses or stretches the elastic element; the elastic element is a spring.

The left side wall and the right side wall of the bin passage are respectively provided with an elastic element mounting bin of the shell, and a pair of springs are respectively mounted in the mounting bins of the left side wall and the right side wall; a clamping hole or a clamping wall or a clamping hook for connecting one end of the fixed spring is correspondingly formed on the front end wall or the rear end wall of the mounting bin and the elastic element mounting part of the sliding support; the front end of the shell defines a bin passage opening, and the bin passage opening is used for the mobile power supply to enter and exit the bin passage; the shell comprises a back plate positioned at the rear end of the bin channel, a through hole is formed in the back plate, the control assembly comprises a charging and/or signal terminal, and the charging and/or signal terminal is exposed in the bin channel through the through hole in the back plate and is connected with a terminal of the mobile power supply; the shell is provided with a sensor for detecting the position information and/or the state information of the electromagnetic valve of the mobile power supply, and the sensor is in signal connection with the module control assembly; the shell is provided with a fixed positioning structure; the charging module further comprises a top cover, and the top cover is arranged at the top of the shell.

The utility model also provides a portable power source equipment of rening, the reciprocating impact tunnel drilling machine comprises a machine body, the equipment of rening still includes the foretell module of charging of a plurality of, the module of charging install in the fuselage.

Be provided with total control board in the fuselage, total control board is connected with the control assembly of each module that charges to control each module work that charges.

The utility model also provides a portable power source equipment of rening, include the fuselage and install the above-mentioned module that charges of a plurality of in the fuselage.

As some embodiments, the main control board in the machine body is connected with the control component of each charging module and works according to each charging module.

The utility model has the advantages that:

on the premise that the portable power source can be normally ejected out when renting and normally locked when returning and inserting can be guaranteed, the portable power source locking device is simple in structural component, simple to assemble and safe in locking of the portable power source.

Further, when no portable power source is put in, the mechanism can not be automatically locked, the condition of returning can be achieved only if the matched portable power source is put in, and the automatic fool-proof effect of the charging module can be achieved.

The present invention will be described in further detail with reference to the accompanying drawings.

Drawings

Fig. 1 is an exploded view of a mobile power supply charging module according to a first embodiment of the present invention.

Fig. 2 is a perspective view illustrating a state of the mobile power charging module according to the first embodiment of the present invention.

Fig. 3 is a perspective view of the first embodiment of the present invention showing a locking state of the mobile power supply charging module.

Fig. 4 is an exploded view of a part of a charging module of a mobile power supply according to a second embodiment of the present invention.

Fig. 5 is a perspective view of a locking state of the mobile power supply charging module according to the second embodiment of the present invention.

Fig. 6 is a perspective view of the portable power supply lending apparatus of the present invention.

Detailed Description

It should be noted that, in the present application, the embodiments and features of the embodiments may be combined with each other without conflict, and the present invention is further described in detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 5, an embodiment of the present invention provides a mobile power supply charging module 100, which includes a housing 1, and a control assembly 8, a sliding bracket 3, an elastic element 2 and a solenoid valve 6, which are mounted on the housing 1 and mounted on the housing. The housing 1 defines a duct 10 for accommodating and moving in and out the mobile power supply 4, and a duct opening 11 is formed at the front end of the duct 10. The sliding support 3 is movably mounted in the duct 10 by the elastic element 2. The sliding support 3 is used for carrying the mobile power supply to enter and exit the warehouse 10, and the charging module 100 pops up the sliding support to move towards the warehouse opening 11 by means of the elasticity of the elastic element 2, so that the mobile power supply 4 pops up outside the warehouse opening for renting. Both ends of the elastic member 2 are mounted to the sliding bracket 3 and the housing 1, respectively. The solenoid valve 6 comprises a telescopic spindle 60. The charging module 100 forms a clamping fit with the mobile power supply 4 in the warehouse 10 after the main shaft 60 of the electromagnetic valve extends out, so as to lock the mobile power supply. The charging module 100 unlocks the portable power source by controlling the main shaft of the electromagnetic valve to retract to release the clamping position. Preferably, the elastic element 2 is a spring, including a tension spring or a compression spring, but may also be an element of other forms, structures or elastic body materials, and can generate an elastic force to drive the sliding support 3 to move, so as to pop up the mobile power supply 4. The shell 1 is provided with an elastic element mounting bin 12, and the elastic element 2 can be elastically and telescopically mounted in the mounting bin 12 and drives the sliding support 3 to reciprocate. The shell 1 is further provided with an electromagnetic valve installation cavity 16, the electromagnetic valve 6 is installed in the electromagnetic valve installation cavity 16, a shaft hole 15 is correspondingly limited on the shell side wall 13 between the electromagnetic valve installation cavity 16 and the bin channel 10, and the electromagnetic valve main shaft 60 can move in a mode of extending forwards into or withdrawing backwards out of the bin channel 10 through the shaft hole 15. The charging module 100 further includes a top cover 5 covering the top of the housing 1.

The utility model discloses a module 100 that charges can realize locking and unblock function through a solenoid valve 6, drives portable power source business turn over storehouse way, simple structure through elastic element 2.

The housing 1 is a main structural member of the charging module, other functional components are mounted on the housing 1, and the top surface of the housing 1 defines the cabin 10. The mobile power supply 4 moves in and out of the warehouse to realize leasing operation, and meanwhile, charging and data and information transmission are carried out in the warehouse 10. The front end of the bin passage is a bin passage opening 11, the mobile power supply enters and exits the bin passage 10 from the bin passage opening 11, and a bin door 7 can be arranged at the bin passage opening. The bin door 7 can be rotatably arranged at two sides of the bin passage opening through a rotating shaft, and the bin door 7 can be pushed to rotate open by a mobile power supply. The left and right side walls of the duct 10 can be used as guide rails for the forward and backward movement and the forward and backward movement of the mobile power supply (the sliding support 3 in this embodiment).

As a specific example, the mounting bin 13 includes a length of guide slot 120 defined by the side wall of the channel. The elastic member installation chamber 12 is communicated with the chamber passage 10, that is, the guide groove 120 is communicated with the chamber passage 10. The elastic element mounting chamber 12 is formed by recessing the chamber channel side wall 13 into a section of the side wall 130. A recessed section 130 of the side wall 13 of the duct is connected to the front and rear end walls 121 of the guide groove 120 to enclose the guide groove 120. In this embodiment, the side walls 13 of the left and right sides of the duct 10 are respectively provided with an elastic element mounting chamber 12 of the housing. A pair of springs (elastic elements 2) are respectively installed in the installation bins 12 of the left and right side walls, and are elastically connected with the sliding rack 3 from both sides to move in and out smoothly. The elastic member 2, i.e., a spring, is elastically and telescopically installed in the guide groove 120.

The housing 1 comprises a back plate 14 located at the rear end of the warehouse, a through hole 140 is arranged on the back plate 14, the control component 8 comprises a charging and/or signal terminal 80, and the charging and/or signal terminal 80 is exposed in the warehouse 10 through the through hole 140 on the back plate so as to be connected with the terminal 40 of the mobile power supply 4. The housing is provided with a plurality of sensors for detecting position information and/or state information of the solenoid valve of the mobile power supply, such as the sensor 9 shown in fig. 1, and the module control assembly 80 is electrically and signal-connected to transmit the detected information to the control assembly 8.

The housing 1 is provided with a fixing and positioning structure 19 for fixing and fixing the housing 1 and the top cover 5. The fixing and positioning structure 19 may be a positioning column and a positioning hole, and may further be fixed by a screw. The fixing and positioning structure 19 can be disposed at any suitable position on the housing 1, such as on the left and right side walls 13.

The side wall of the bin passage 10 is further provided with an electromagnetic valve installation cavity 16 for installing the electromagnetic valve 6, and a shaft hole 15 is defined on the corresponding position of the shell side wall 13 between the electromagnetic valve installation cavity 16 and the bin passage 10, so that the electromagnetic valve main shaft 60 can extend forwards or backwards out of the bin passage 10 through the shaft hole 15.

In this embodiment, the elastic element installation bin 12 is disposed on the side wall of the front end of the duct, and is close to the duct door 11, and the elastic element 2, i.e., the spring, is installed on two sides of the duct close to the duct opening. The electromagnetic valve installation cavity 16 is arranged on the side wall of the bin passage and close to the back plate. Of course, these structures may be disposed at other suitable positions on the housing 1 according to specific requirements.

In this embodiment, the sliding bracket 3 is movably installed in the duct 10. The sliding support 3 is used for carrying and transporting the mobile power supply 4 into and out of the warehouse 10, specifically, the sliding support 3 includes a mobile power supply accommodating bin 30, the mobile power supply is accommodated in the accommodating bin 30, and the accommodating bin 30 drives the warehouse 10 into and out of the warehouse. The mobile power supply accommodating bin 30 is used for accommodating the mobile power supply 4 and driving the mobile power supply 4 to reciprocate in the bin passage 10 along with the sliding support 3. The bottom wall of the accommodating bin 30 carries the mobile power supply, and the peripheral side walls thereof have an opening at the front end, and the rear end wall 32 is used as an extending blocking wall for pushing the mobile power supply, so as to drive the mobile power supply to move forward or push the sliding support 3 backward.

The slide holder 3 is provided with an elastic member mounting portion 31. In this embodiment, the elastic element mounting portion 31 of the sliding bracket is a sliding block which is arranged on the outer side wall of the portable power source accommodating chamber 30 and protrudes towards two outer sides, and the protruding sliding block is located in the guide groove 120 to reciprocate back and forth. The convex sliding blocks are arranged on two sides of the front end of the sliding support 3 or at the middle position or the rear end position, the opening of the front end surface of the sliding support 3 is used for the mobile power supply to enter and exit, and the rear end wall 32 is provided with a notch, so that the terminal 40 of the mobile power supply can be in contact with the charging and/or signal terminal 80 in the bin channel.

The elastic element 2 is elastically and telescopically mounted in the guide slot 120, and one end of the elastic element 2 is mounted on the front end wall and/or the rear end wall 121 of the guide slot, in this embodiment, the front end wall 121. The other end of the elastic member 2 is attached to the elastic member attaching portion 31 of the slide bracket. The elastic member mounting portion 31 of the sliding bracket is slidably mounted in the guide groove 120 and is driven by the elastic member 2 to reciprocate along the guide groove. The front end wall and the rear end wall 121 of the guide groove are used as limiting walls for the elastic element mounting part 31 of the sliding support to move back and forth in the guide groove 120, and accordingly the depth of the mobile power supply 4 driven by the sliding support 3 to enter the bin passage 10 and the extension length of the mobile power supply to pop out of the bin passage are limited. When the sliding support 3 drives the mobile power supply to move in and out of the bin passage 10, the elastic element mounting part 31 of the sliding support reciprocates back and forth between the front end wall and the rear end wall of the guide groove, and meanwhile, the elastic element is compressed or stretched.

In some embodiments, the elastic element mounting portion 31 of the sliding bracket, i.e. the sliding block, on the rear end wall or the front end wall 121 of the housing 12 and the elastic element mounting portion, i.e. the sliding block, are correspondingly formed with a clipping hole or a clipping wall or a clipping hook for connecting and fixing the elastic element 2. Specifically, one end of the elastic element 2 is clamped or abutted on the rear end wall or the front end wall 121 of the installation bin, or in a clamping hole formed in the installation bin, or on a clamping hook 18 arranged on the installation bin; the other end of the elastic element 2 is clamped or pressed against the surface of the elastic element mounting part 31 of the sliding bracket, or a clamping hole 33 formed in the elastic element mounting part, or a clamping hook 34 arranged on the elastic element mounting part, so that the two ends of the elastic element 2 are fixed.

The elastic element 2 of the present invention always maintains elastic deformation and is in a tendency of popping out the sliding bracket 3 outward. When no portable power source exists in the warehouse duct 10 or the portable power source is ejected, the elastic element 2 is in a small deformation amount of stretching or compressing, the elastic element pulls the sliding support 3 to be close to the warehouse duct opening 11, and the sliding support is limited and fixed by the front end wall 121 of the guide groove, referring to fig. 2. When the mobile power source 4 is pushed into the cabin 10 from the cabin opening 11, the sliding support 3 moves inwards to stretch or compress the elastic element 2 to increase the deformation amount, as shown in fig. 3 and 5.

The charging module 100 includes a module control component 8, and the module control component 8 controls the charging of the mobile power supply in the cabin 10 and/or performs information transmission. The module control component 8 is electrically connected with the electromagnetic valve 6 and controls the electromagnetic valve 6 to be powered on or off.

In some embodiments, the solenoid spindle 60 remains in a forward, naturally extended state. The main shaft 60 of the electromagnetic valve can automatically contract and move, and comprises a main shaft which can retract towards the electromagnetic valve 6 when being pushed by external force or an active forward extending movement after the external force is eliminated. When the solenoid valve 6 is energized, the solenoid valve spindle 60 retracts. After the solenoid valve is powered off, the solenoid valve main shaft 60 automatically stretches and retracts and protects the natural stretching state.

In the above embodiment, when the cabin 10 has a portable power source or is in a charging state, the main shaft 60 of the electromagnetic valve is in a natural extension state, the portable power source is locked, and the electromagnetic valve is powered off. The spring is in a state of maximum deformation, either extended or compressed.

In the borrowing process of the mobile power supply, the electromagnetic valve 6 is electrified at the instant of popping the mobile power supply to enable the electromagnetic valve spindle 60 to retract, and the electromagnetic valve spindle exits from the lock hole 41 of the mobile power supply; after the mobile power supply is popped up, the electromagnetic valve is powered off, and the main shaft 60 of the electromagnetic valve naturally extends out. After the mobile power supply is ejected, the spring is in a state of small extension or compression deformation.

Preferably, the module control component 8 controls the solenoid valve 6 to be powered on only at the moment when the module ejects the mobile power supply or ejects the sliding bracket, and is powered off at other times. The module control assembly 8 controls the electromagnetic valve 6 to be electrified so that the electromagnetic valve spindle 60 retracts to be separated from the lock hole 41 formed in the side wall of the mobile power supply, and therefore the mobile power supply is unlocked.

In the embodiment, the control component 8 is a control circuit board on which a control chip is disposed. A set of charging and/or signal terminals 80 is also provided on the control assembly 8. The mobile power supply returns to the warehouse 10, and after the mobile power supply returns to the position, the charging and/or signal terminal 40 on the outer wall of the mobile power supply 4 is in contact conduction with the charging and/or signal terminal 80 on the control assembly, so that the control assembly 8 controls the charging and/or signal transmission.

Referring to fig. 1 to 3, the charging module 100 according to the first embodiment of the present invention employs a spring, specifically a pressure spring, as a specific example of the elastic element 2, one end of the spring is abutted against the front end wall 121 of the guide groove of the module housing 1, and the other end of the spring is abutted against the elastic element mounting portion 31 of the sliding support, that is, the surface of the slider, which is opposite to the front end wall 121, the spring is in a compressed state, and the front end wall 121 moves forward, that is, the sliding support moves outward and pops up.

Fig. 4-5, the charging module 100 according to the second embodiment of the present invention adopts the tension spring as the specific example of the elastic element 2, one end of the tension spring is clamped on the hook 18 disposed on the front end wall 121 of the guide groove of the module housing 1, the other end of the tension spring is clamped on the hook 34 on the surface of the elastic element mounting portion 31 of the sliding support, i.e., the slider, the surface is opposite to the rear end wall 121, the tension spring is in a stretching state, the rear end wall 121 moves backward, i.e., the backward movement of the slider, i.e., the returning position of the limiting sliding support for inwardly carrying the mobile power supply.

Referring to fig. 6, the utility model also provides a portable power source equipment 1000 of renting, including the fuselage, a plurality of module 100 that charges install in the fuselage. Be provided with total control board 300 in the fuselage, total control board 300 is connected with the control assembly 8 of each module 100 that charges to control each module 100 that charges and work.

When the mobile power supply is lent: the electromagnetic valve 6 works when being electrified, the main shaft 60 for locking the mobile power supply is contracted and unlocked, the spring is in the maximum deformation state of stretching or compressing, the mobile power supply is popped out by virtue of elasticity, after the mobile power supply is popped out, the electromagnetic valve 6 is automatically powered off, and the main shaft 60 of the electromagnetic valve is restored to the natural extension state.

When the mobile power supply returns: when the mobile power supply is plugged in, the spindle 60 of the electromagnetic valve is in an extending state, the spindle 60 can stretch and retract and automatically retract backwards under external force, in the process of plugging the mobile power supply, the spindle 60 is pushed backwards by the outer wall of the mobile power supply to retract, until the mobile power supply is plugged in place, the spindle of the electromagnetic valve is aligned to the lock hole 41 of the mobile power supply, the external force of the mobile power supply on the spindle of the electromagnetic valve disappears, the spindle 60 of the electromagnetic valve pops forwards to lock the mobile power supply, and the automatic locking of the mobile power supply by the. Other sizes of mobile power supplies or foreign matters are pushed into the bin 10 and cannot be matched and locked with the electromagnetic valve spindle 60, so that the false locking can be avoided.

In other embodiments, a position sensor is provided on the charging module 100, and the position sensor and/or the information of the mobile power supply read by the module control component 8 are used to determine whether the mobile power supply is properly returned. The electromagnetic valve can also be switched on or off under the control of the module control component 8, and the electromagnetic valve spindle 60 is correspondingly controlled to extend out for locking when the mobile power supply is returned to the place. When the portable power source needs to be lent, the module control component 8 controls the solenoid valve spindle 60 to retract and unlock. In other embodiments, the solenoid spindle 60 may be automatically returned to the initial state or the zero state of the extension or retraction by a return structure (e.g., a return spring).

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or assembly in question must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other or mutually interacted. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A charging module comprises a shell, wherein the shell is limited with a bin passage for accommodating a mobile power supply and allowing the mobile power supply to enter and exit, and the front end of the bin passage is a bin passage opening; the method is characterized in that: the charging module further comprises a sliding support, an elastic element and an electromagnetic valve, wherein the sliding support is used for carrying the mobile power supply to enter and exit the warehouse; two ends of the elastic element are respectively connected with the sliding support and the shell, and the charging module pops up the sliding support to move towards the bin opening by virtue of the elasticity of the elastic element, so that the mobile power supply pops up; the electromagnetic valve comprises a telescopic main shaft; the charging module is in clamping fit with the mobile power supply in the warehouse by means of extension of the main shaft of the electromagnetic valve, so that the mobile power supply is locked; the charging module unlocks the portable power source by controlling the main shaft of the electromagnetic valve to retract and release the clamping position.

2. The charging module of claim 1, wherein: the charging module comprises a module control component, and the module control component controls the charging and/or information transmission of the mobile power supply in the warehouse; the module control assembly is electrically connected with the electromagnetic valve and controls the electromagnetic valve to be powered on or off; the elastic element keeps the elastic deformation in the trend of popping out the sliding bracket outwards; when no mobile power supply exists in the warehouse or the mobile power supply is popped up, the elastic element is in a small deformation amount of stretching or compressing, and the elastic element pulls the sliding support to be close to the warehouse opening; the portable power source advances the storehouse way from the storehouse way mouth, and the sliding support moves inwards and stretches or compresses the elastic element to increase the deformation volume.

3. The charging module of claim 2, wherein: the main shaft of the electromagnetic valve keeps a forward natural extending state; the main shaft of the electromagnetic valve can automatically contract and move, and can retract and move towards the electromagnetic valve when being pushed by external force, or actively extend forwards and move when the external force is eliminated; when the electromagnetic valve is electrified, the main shaft of the electromagnetic valve moves in a retracting manner; after the electromagnetic valve is powered off, the main shaft of the electromagnetic valve automatically stretches and retracts and protects the natural stretching state.

4. The charging module of claim 3, wherein: the module control assembly controls the electromagnetic valve to be powered on only at the moment that the module pops up the mobile power supply or pops up the sliding support, and the electromagnetic valve is powered off at other times; the module control assembly controls the electromagnetic valve to be electrified so as to enable the electromagnetic valve spindle to retract, so that the mobile power supply is unlocked; the module control assembly is a control circuit board.

5. The charging module according to any one of claims 1 to 4, wherein: the shell is provided with an elastic element mounting bin, and the elastic element can be elastically and telescopically mounted in the mounting bin and drives the sliding support to reciprocate; the shell is also provided with an electromagnetic valve installation cavity, the electromagnetic valve is installed in the electromagnetic valve installation cavity, the side wall of the shell between the electromagnetic valve installation cavity and the bin channel correspondingly limits a shaft hole, and a main shaft of the electromagnetic valve penetrates through the shaft hole and can move forwards or backwards out of the bin channel; the sliding support is movably arranged in the warehouse channel.

6. The charging module of claim 5, wherein: the elastic element mounting bin of the shell comprises a section of guide groove limited by a bin channel side wall; the sliding support comprises an elastic element mounting part and a mobile power supply accommodating bin; the mobile power supply accommodating bin is used for accommodating a mobile power supply and driving the mobile power supply to reciprocate in the bin passage along with the sliding support; the elastic element can be elastically and telescopically arranged in the guide groove, one end of the elastic element is arranged on the front end wall or the rear end wall of the guide groove, and the other end of the elastic element is arranged on the elastic element mounting part of the sliding bracket; the elastic element mounting part of the sliding support is slidably mounted in the guide groove and driven by the elastic element to reciprocate along the guide groove; the front end wall or the rear end wall of the guide groove is used as a limiting wall for the elastic element mounting part of the sliding support to move forwards or backwards in the guide groove.

7. The charging module of claim 6, wherein: the elastic element mounting bin is communicated with the bin channel; the elastic element mounting bin is formed by recessing a section of side wall of the bin channel; a section of concave side wall of the bin channel is connected with the front end wall and the rear end wall and encloses the guide groove; the elastic element mounting part of the sliding support is a protruding sliding block arranged on the outer side wall of the mobile power supply accommodating bin; the elastic element mounting part of the sliding bracket reciprocates back and forth between the front end wall and the rear end wall of the guide groove and compresses or stretches the elastic element; the elastic element is a spring.

8. The charging module of claim 7, wherein: the left side wall and the right side wall of the bin passage are respectively provided with an elastic element mounting bin of the shell, and a pair of springs are respectively mounted in the mounting bins of the left side wall and the right side wall; a clamping hole or a clamping wall or a clamping hook for connecting one end of the fixed spring is correspondingly formed on the front end wall or the rear end wall of the mounting bin and the elastic element mounting part of the sliding support; the front end of the shell defines a bin passage opening, and the bin passage opening is used for the mobile power supply to enter and exit the bin passage; the shell comprises a back plate positioned at the rear end of the bin channel, a through hole is formed in the back plate, the module control assembly comprises a charging and/or signal terminal, and the charging and/or signal terminal is exposed in the bin channel through the through hole in the back plate and is connected with a terminal of the mobile power supply; the shell is provided with a sensor for detecting the position information and/or the state information of the electromagnetic valve of the mobile power supply, and the sensor is in signal connection with the module control assembly; the shell is provided with a fixed positioning structure; the charging module further comprises a top cover, and the top cover is arranged at the top of the shell.

9. The utility model provides a portable power source leases equipment, includes the fuselage, its characterized in that: the leasing equipment further comprises a plurality of charging modules according to any one of claims 1-8, wherein the charging modules are installed in the machine body.

10. A portable power supply lending apparatus according to claim 9, wherein: be provided with total control board in the fuselage, total control board is connected with the module control assembly of each module that charges to control each module work that charges.

Images