CN114123433B - Mobile power supply sharing charging equipment - Google Patents

Abstract

The invention relates to the technical field of mobile power supply charging, in particular to a mobile power supply sharing charging device which comprises a charging base bin and a power supply body for charging a mobile power supply, wherein the charging base bin is of a regular polygon columnar structure, the power supply body is arranged in a hollow cavity, and a plurality of charging storage cavities are uniformly arranged on the outer side wall of the charging base bin in the circumferential direction and are arranged from top to bottom at equal intervals. According to the invention, the connecting slider is in butt joint with the connecting seat, so that the charging insertion piece is connected with the contact conductor through the connecting conductor, and further, the electric energy of the power supply body is conveyed into the mobile power supply sequentially through the contact conductor, the connecting conductor and the charging insertion piece, wherein the connecting slider is connected with the two mounting round rods through the auxiliary plate and the mounting plate, so that the functions of dismounting and mounting of the connecting slider are realized under the effects of the mounting round rods, the butt joint round rods and the connecting rod, and further, the damaged charging insertion piece is conveniently and rapidly replaced without dismounting the whole charging equipment.

Description

Mobile power supply sharing charging equipment

Technical Field

The invention relates to the technical field of mobile power supply charging, in particular to a mobile power supply sharing charging device.

Background

The portable power source is a portable charger which can be carried about by an individual and can store electric energy, is mainly used for charging consumer electronic products such as handheld mobile equipment and the like, and is particularly applied to occasions without external power supply, wherein the shared portable power source refers to charging rental equipment provided by enterprises, a user uses the mobile equipment to scan a two-dimensional code on a screen of the equipment to deliver deposit, namely, a portable power source can be rented, and the deposit can be withdrawn and returned to an account at any time after the portable power source is successfully returned.

After the user need not use portable power source, put back portable power source into battery charging outfit's entrance that charges to make portable power source's the interface that charges and the plug-in block butt joint that charges of the module that charges in the battery charging outfit, thereby can charge portable power source, current portable power source sharing battery charging outfit has following difficult problem at the in-process that charges to portable power source: a. the problem of charging the inserted block and buckling and damaging is easily appeared to the deviation when the inserted block that charges in portable power source's the interface that charges and the battery charging outfit docks, need dismantle battery charging outfit when the inserted block that charges that needs to be renewed, and the loaded down with trivial details difficulty of change mode, the inserted block that charges in a lot of battery charging outfits that have simultaneously all is fixed on the module of charging, increases the degree of difficulty of the inserted block quick replacement that charges once more.

b. In order to reduce the size of the device and save the cost as much as possible, the mobile power supplies on a plurality of charging devices are semi-leaked outside the charging devices, so that the mobile power supplies can be forcibly pulled out of the charging devices manually, and the charging devices are damaged.

Disclosure of Invention

The invention provides a mobile power supply sharing charging device which can solve the above-mentioned problems.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a portable power source sharing battery charging outfit, includes the power supply body that charges the seat storehouse and supply portable power source to charge, the seat storehouse of charging be regular polygon columnar structure, and its inside hollow chamber of having seted up, the power supply body is installed to hollow intracavity, the seat storehouse lateral wall circumference that charges is even and from last down equidistant a plurality of charges of having seted up deposit the chamber, charges and deposits the chamber and be used for placing portable power source.

Charging in the charging seat storehouse deposits the chamber and offers the T type installation cavity that link up from top to bottom towards one side of power supply body, and T type installation cavity upper end runs through the charging seat storehouse, two support panel are installed to the inside wall symmetry of T type installation cavity, it is provided with the centre gripping stabilizing member of two symmetrical arrangement to charge to deposit the intracavity slip, centre gripping stabilizing member back of the body one side of the back of the body is installed two and is charged and deposit the sliding hole looks sliding fit's that the chamber lateral wall was seted up centre gripping connecting rod, and the centre gripping connecting rod sets up towards the slope of the charging seat storehouse outside.

The overlooking cross section of the clamping stabilizing piece is of a U-shaped structure, the vertical section length of the clamping stabilizing piece towards one side of the power supply body is longer than that of the clamping stabilizing piece towards one side of the charging seat bin outer wall, the clamping stabilizing piece is provided with a rectangular panel for shielding charging and storing a cavity towards one side of the charging seat bin outer wall, and the upper end and the lower end of the clamping stabilizing piece towards one side of the charging seat bin outer wall are both provided with extension plates and two vertical sections, far away from one side of the power supply body, of the extension plates at the upper end and the lower end of one side of the clamping stabilizing piece opposite to one side of the clamping stabilizing piece and the clamping stabilizing piece form a clamping cavity.

Every lateral wall of power supply body is provided with the connecting seat from last down equidistant respectively, and is provided with the contact conductor who links to each other with the power supply body in the connecting seat, two it is provided with link block to slide between the supporting panel, and link block mid-mounting has a connecting conductor, link block and connecting seat butt joint, and connecting conductor and contact conductor contact, the one end that the power supply body was kept away from to link block is installed the socket that charges through the detachable mode, and the socket mid-mounting that charges has the inserted sheet that charges, the inserted sheet that charges contacts with the connecting conductor.

As a preferred technical scheme of the invention, power runners communicated with slide holes formed in the side walls of the charging storage cavity are formed in the two side walls of the charging storage cavity, a driving runner is formed in one side, facing the side walls of the charging storage cavity, of the supporting panel, the driving runner is communicated with the power runners through arc runners, power runners are arranged in the power runners in a sliding mode, a first spring is connected between one end, far away from the driving runner, of the power runner and the power runners, and rolling balls are arranged in the driving runner and the arc runners.

As a preferred technical solution of the present invention, an abutting engagement block is slidably disposed at one end of the driving flow channel away from the power supply body, the abutting engagement block is provided with an inclined surface, the inclined surface is in abutting engagement with the rolling ball in the driving flow channel, the abutting engagement block penetrates through the support panel, a fitting panel is mounted at one end of the abutting engagement block away from the power supply body, and a second spring is connected between the fitting panel and the support panel.

As a preferred technical scheme of the invention, a permanent magnet is installed at one end of the clamping connecting rod, which is far away from the clamping stabilizing piece, two permanent magnets are also arranged on the power slide bar, and the permanent magnets on the clamping connecting rod and the power slide bar have the same magnetism; the relative one side of centre gripping stabilizer and the chamber lateral wall is deposited in charging all is provided with the electro-magnet, and the two magnetism is opposite.

As a preferable technical scheme of the invention, one end of the matching panel, which is far away from the abutting matching block, is uniformly provided with balls matched with the vertical section of the clamping stabilizing piece.

As a preferred technical solution of the present invention, one side of the support panel facing the power supply body is symmetrically provided with vertically arranged butt-joint stabilizing plates, the upper end of each butt-joint stabilizing plate is provided with a sliding fit groove, each sliding fit groove comprises a rectangular groove, and a circular groove and a kidney-shaped groove which are located at two sides of the rectangular groove, the circular groove is close to one side of the support panel, the kidney-shaped groove is close to one side of the power supply body, and the diameter of the circular groove and the diameter of the kidney-shaped groove are both greater than the width of the rectangular groove.

As a preferred technical scheme of the invention, the sliding fit groove is internally provided with a butt joint assembly in a sliding manner, the butt joint assembly comprises a butt joint round rod, an installation round rod, a connecting rod and a return spring, the butt joint round rod is arranged in the round groove in a sliding manner, the installation round rod is arranged in the kidney-shaped groove in a sliding manner, the connecting rod and the return spring are both arranged in the rectangular groove, the connecting rod is connected between the butt joint round rod and the installation round rod, the return spring is connected between the connecting rod and the butt joint round rod, and the tops of the two butt joint round rods and the tops of the two installation round rods which are positioned in the same charging storage cavity are both connected through the connecting plate.

As a preferred technical scheme of the invention, auxiliary plates are respectively arranged on opposite sides of two mounting round rods in the same charging storage cavity, mounting plates are respectively connected to two sides of each connecting slide block, all the connecting slide blocks in the same T-shaped mounting cavity are respectively connected to the two auxiliary plates which are oppositely distributed through the mounting plates on the connecting slide blocks, a matching sliding groove communicated with the kidney-shaped groove is formed in the opposite side of the butt joint stabilizing plate, and the auxiliary plates are slidably arranged in the matching sliding grooves.

As a preferred technical scheme of the invention, two side walls of the top of the T-shaped mounting cavity are provided with elastic telescopic panels, the height of the elastic telescopic panel above the butt joint round rod is higher than that of the elastic telescopic panel above the mounting round rod, and the upper end of one side of the elastic telescopic panel opposite to the butt joint round rod is provided with an inclined plane which is convenient for the butt joint round rod and the mounting round rod to move downwards.

As a preferable technical scheme of the invention, the top cover for shielding the T-shaped mounting cavity is mounted at the upper end of the charging seat bin through a screw.

The invention has the beneficial effects that: 1. according to the invention, the connecting slider is in butt joint with the connecting seat, so that the charging insertion piece is connected with the contact conductor through the connecting conductor, and further, the electric energy of the power supply body is conveyed into the mobile power supply sequentially through the contact conductor, the connecting conductor and the charging insertion piece, wherein the connecting slider is connected with the two mounting round rods through the auxiliary plate and the mounting plate, so that the functions of dismounting and mounting of the connecting slider are realized under the effects of the mounting round rods, the butt joint round rods and the connecting rod, and further, the damaged charging insertion piece is conveniently and rapidly replaced without dismounting the whole charging equipment.

2. The mobile power supply can be clamped and fixed through the two clamping stabilizing pieces with the U-shaped structures with different vertical section lengths, and the charging interface of the mobile power supply is ensured to be smoothly butted with the charging insertion piece.

3. According to the invention, acting force for manually pushing the mobile power supply to the charging storage cavity can be transmitted to the power slide bar through the rolling balls, and then the permanent magnet on the power slide bar and the permanent magnet on the clamping connecting rod generate mutual exclusion effect by utilizing the magnet magnetism principle, so that the clamping stabilizing part is pushed to clamp the mobile power supply.

4. The invention has more synchronism through the parallelogram structure formed by the two groups of mounting round rods, the connecting rod and the butt joint round rods, and can ensure that the upper end and the lower end of the mounting round rods synchronously move when the butt joint round rods push the mounting round rods to move towards the power supply body through the connecting rod, so that all the connecting sliding blocks positioned in the same T-shaped mounting cavity are simultaneously butted with the connecting seat, and the connecting conductor is ensured to be contacted with the contact conductor.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a partial enlarged view of the invention at a in fig. 1.

Fig. 3 is a top cross-sectional view of the present invention.

Fig. 4 is a partial enlarged view of the invention at B in fig. 3.

Fig. 5 is an enlarged view of a portion of the invention at C in fig. 4.

Fig. 6 is an enlarged view of a portion of the invention at D in fig. 4.

Fig. 7 is a front cross-sectional view of the present invention.

Fig. 8 is an enlarged view of a portion of the invention at E in fig. 7.

Fig. 9 is an enlarged view of a portion of the invention at F in fig. 7.

Fig. 10 is a schematic structural view of the present invention between a butt-joint round bar, a mounting round bar, a connecting bar, a return spring, a connecting plate, an auxiliary plate, a mounting plate, a connecting slider, and a charging tab.

Fig. 11 is a schematic structural view of the butt stabilizer plate according to the present invention.

In the figure: 100-mobile power supply, 1-charging seat bin, 11-supporting panel, 111-interference matching block, 112-matching panel, 113-second spring, 12-clamping stabilizer, 121-rectangular panel, 122-extending plate, 13-clamping connecting rod, 131-permanent magnet, 2-power supply body, 21-connecting seat, 22-contact conductor, 23-connecting slider, 24-connecting conductor, 25-charging socket, 26-charging inserting sheet, 27-butt-joint stabilizer, 271-butt-joint round rod, 272-installation round rod, 273-connecting rod, 274-reset spring, 275-connecting plate, 276-auxiliary plate, 277-installation plate, 278-matching chute, 28-elastic telescopic panel, 29-top cover, press-fit block, and press-fit block, 3-charging storage cavity, 31-power slide bar, 32-first spring, 33-rolling ball and 34-electromagnet.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the width of the lines or the size of the components in the drawings may be exaggerated for clarity and convenience of description.

The following terms are defined based on the functions of the present invention, and may be different depending on the intention of the user or the convention. Therefore, these terms are defined based on the entire contents of the present specification.

Referring to fig. 1, fig. 3 and fig. 7, a portable power source sharing battery charging outfit, including the power supply body 2 that charges seat storehouse 1 and supply portable power source 100 to charge, the seat storehouse 1 that charges be regular polygon columnar structure, and its inside hollow chamber of having seted up, power supply body 2 is installed to the hollow chamber, 1 lateral wall circumference of the seat storehouse of charging is even and from last down equidistant a plurality of charges of having seted up and deposit chamber 3, charges and deposits chamber 3 and is used for placing portable power source 100.

Referring to fig. 4, fig. 8, fig. 9 and fig. 10, every lateral wall of power supply body 2 is provided with connecting seat 21 from last down equidistant respectively, and is provided with the contact conductor 22 that links to each other with power supply body 2 in the connecting seat 21, two slide between the supporting panel 11 and be provided with link block 23, and link block 23 mid-mounting has connecting conductor 24, link block 23 and connecting seat 21 dock, and link conductor 24 and contact conductor 22 contact, the one end that link block 23 kept away from power supply body 2 is installed charging socket 25 through the detachable mode, and charging socket 25 mid-mounting has charging insertion sheet 26, charging insertion sheet 26 and connecting conductor 24 contact. During specific work, the power supply body 2 transmits electric energy to the connecting conductor 24 in the connecting slide block 23 through the contact conductor 22 on the connecting seat 21, and further transmits the electric energy to the mobile power supply 100 through the charging insertion sheet 26, so that the function of charging the mobile power supply 100 is realized.

Referring to fig. 4, 6 and 11, the supporting panel 11 is symmetrically provided with a vertically arranged butt joint stabilizing plate 27 towards one side of the power supply body 2, the upper end of the butt joint stabilizing plate 27 is provided with a sliding fit groove, the sliding fit groove comprises a rectangular groove and a circular groove and a kidney-shaped groove which are positioned at two sides of the rectangular groove, the circular groove is close to one side of the supporting panel 11, the kidney-shaped groove is close to one side of the power supply body 2, and the diameter of the circular groove and the diameter of the kidney-shaped groove are both greater than the width of the rectangular groove.

Referring to fig. 4, 6 and 10, the sliding fit groove is provided with a docking assembly in a sliding manner, the docking assembly includes a docking round rod 271, a mounting round rod 272, a connecting rod 273 and a return spring 274, the docking round rod 271 is slidably disposed in the round groove, the mounting round rod 272 is slidably disposed in the kidney-shaped groove, the connecting rod 273 and the return spring 274 are both disposed in the rectangular groove, the connecting rod 273 is hinged between the docking round rod 271 and the mounting round rod 272, the return spring 274 is connected between the connecting rod 273 and the docking round rod 271, and the tops of the two docking round rods 271 and the tops of the two mounting round rods 272 in the same charging storage cavity 3 are connected through the connecting plate 275.

Referring to fig. 4, 6, 10 and 11, auxiliary plates 276 are respectively installed on opposite sides of two installation round rods 272 in the same charging storage cavity 3, installation plates 277 are respectively connected to both sides of the connection slider 23, all the connection sliders 23 in the same T-shaped installation cavity are respectively connected to the two auxiliary plates 276 which are distributed oppositely through the installation plates 277, a matching chute 278 communicated with the kidney-shaped groove is formed on the opposite side of the butt joint stabilizing plate 27, and the auxiliary plates 276 are slidably disposed in the matching chute 278.

Referring to fig. 7 and 9, both side walls of the top of the T-shaped installation cavity are provided with elastic telescopic panels 28, the height of the elastic telescopic panel 28 above the docking round bar 271 is higher than the height of the elastic telescopic panel 28 above the installation round bar 272, and an inclined plane facilitating downward movement of the docking round bar 271 and the installation round bar 272 is arranged at the upper end of the opposite side of the elastic telescopic panel 28.

During operation, the lower end of the round installation rod 272 is first abutted against the inclined surface of the elastic expansion panel 28 to make the round installation rod 272 enter the kidney-shaped slot smoothly, then the lower end of the round abutting rod 271 is also abutted against the inclined surface of the elastic expansion panel 28 to make the round abutting rod 271 move down into the round slot, and at the same time, the connecting rod 273 is driven to move down into the rectangular slot, when the lower end of the round installation rod 272 moves to the bottom of the kidney-shaped slot and the connecting plate 275 at the upper end of the round installation rod 272 moves to the lower part of the elastic expansion panel 28 abutted against the round abutting rod 272, the round abutting rod 271 is continuously pressed to make the connecting rod 273 rotate, and at the same time, the connecting rod 273 above the round installation rod 272 is limited by the elastic expansion panel 28 to push the round installation rod 272 to move in the kidney-shaped slot towards the power supply body 2 until the connecting seat 21 is abutted against the connecting slider 23 to make the connecting conductor 24 contact with the contact conductor 22, and at this time, the connecting plate 275 at the upper end of the round abutting rod 271 moves to the lower end of the elastic expansion panel 28 abutted against the lower end of the connecting plate 28, the elastic expansion panel 28 is restored and abuts against the connecting plate 275 on the upper end of the docking circular rod 271, so as to prevent the tendency that the elastic force of the restoring spring 274 pushes the docking circular rod 271 to move upwards, and prevent the problem that the connecting seat 21 is separated from the connecting slider 23.

When the charging plug-in sheet 26 is damaged in the butt joint with the mobile power supply 100, the elastic telescopic panel 28 above the butt joint round rod 271 is pushed, the docking circular rod 271 is moved upwards by the action of the return spring 274, and at the same time, the connecting plate 275 on the docking circular rod 271 is pulled manually to move the mounting circular rod 272 in the kidney-shaped groove towards the direction away from the power supply body 2, so that the connecting slide block 23 is separated from the docking with the connecting base 21, the resilient telescoping panel 28 above the mounting rod 272 is then pushed to move the mounting rod 272 up smoothly, so that all the link sliders 23 located in the same T-shaped mounting cavity are simultaneously moved upward by the auxiliary plate 276 and the mounting plate 277, then the damaged charging insertion piece 26 is detached and replaced by a new charging insertion piece 26, and the connecting slide block 23 is installed in the T-shaped installation cavity and is butted with the connecting seat 21 on the power supply body 2. It should be noted that all the portable power source 100 that is charged and mated with the T-shaped mounting cavity needs to be taken out before the docking lever 271 and the mounting lever 272 are taken out and removed.

Referring to fig. 1 and 7, a top cover 29 for shielding the T-shaped mounting cavity is mounted at the upper end of the charging seat bin 1 through screws; can effectively prevent the dust debris among the external environment to fall into T type installation cavity, guarantee the use of each inside part in charging seat storehouse 1, avoid simultaneously that the artificial accident touches flexible panel 28 and leads to the problem that link block 23 and connecting seat 21 butt joint break away from.

Referring to fig. 1, fig. 2, fig. 4 and fig. 7, a charging storage cavity 3 in the charging seat bin 1 is provided with a T-shaped installation cavity which is through up and down on one side facing the power supply body 2, the upper end of the T-shaped installation cavity penetrates through the charging seat bin 1, two support panels 11 are symmetrically installed on the inner side wall of the T-shaped installation cavity, two symmetrically arranged clamping and stabilizing members 12 are slidably arranged in the charging storage cavity 3, two clamping and connecting rods 13 which are in sliding fit with sliding holes formed in the side wall of the charging storage cavity 3 are installed on the opposite side of the clamping and stabilizing members 12, and the clamping and connecting rods 13 are obliquely arranged facing the outer side of the charging seat bin 1; during specific work, the mobile power supply 100 to be charged is placed in the charging storage cavity 3, the mobile power supply 100 is pushed to move towards the power supply body 2, the two clamping and stabilizing members 12 in the charging storage cavity 3 are clamped and fixed towards the mobile power supply 100 in the process, and after the mobile power supply 100 is clamped and fixed by the two clamping and stabilizing members 12, the charging interface of the mobile power supply 100 is in plug-in fit with the charging insertion sheet 26, so that the charging function of the mobile power supply 100 is realized; when the holding stabilizer 12 moves, it moves along the axial direction of the holding link 13, i.e. when the holding stabilizer 12 is held toward the portable power source 100, it also moves toward the power supply body 2, and when the two holding stabilizers 12 just hold the portable power source 100, the portable power source 100 is connected to the charging plug 26 through the charging interface.

Referring to fig. 1, 2, 4 and 7, the top cross section of the clamping and stabilizing member 12 is a U-shaped structure, the vertical length of the clamping and stabilizing member 12 on the side facing the power supply body 2 is longer than the vertical length of the clamping and stabilizing member 12 on the side facing the outer wall of the charging cabin 1, a rectangular panel 121 for shielding the charging and storing cavity 3 is disposed on the opposite side of the clamping and stabilizing member 12 on the outer wall of the charging cabin 1, extension plates 122 are disposed at the upper end, the lower end and the side end of the clamping and stabilizing member 12 on the opposite side facing the outer wall of the charging cabin 1, and the extension plates 122 at the upper end and the lower end of the opposite side of the two clamping and stabilizing members 12 and the vertical section of the clamping and stabilizing member 12 on the side far from the power supply body 2 form a clamping cavity; when the mobile power supply 100 is placed in the charging storage cavity 3 and the mobile power supply 100 is pushed inwards, firstly, the mobile power supply 100 is in contact with the vertical section with the longer length of the clamping and stabilizing part 12, then, the mobile power supply 100 is pushed, so that the clamping and stabilizing part 12 is pushed to move towards the supporting panel 11, and after the mobile power supply 100 is clamped and fixed by the two clamping and stabilizing parts 12, the two ends of one side, away from the power supply body 2, of the mobile power supply 100 are clamped and wrapped by the vertical sections with the smaller length of the two clamping and stabilizing parts 12 through the clamping cavity formed by the extending plate 122; the space between the clamping stabilizing piece 12 and the side wall of the charging storage cavity 3 can be effectively shielded through the rectangular panel 121, and the attractiveness is improved.

Referring to fig. 4 and 5, the two side walls of the charging storage cavity 3 are provided with power runners communicated with slide holes formed in the side walls of the charging storage cavity 3, the supporting panel 11 is provided with a driving runner towards one side of the charging storage cavity 3, the driving runner is communicated with the power runners through arc runners, the power runners 31 are arranged in the power runners in a sliding mode, a first spring 32 is connected between one end of each power runner far away from the driving runner and the corresponding power runner 31, and rolling balls 33 are arranged in the driving runner and the arc runners.

Referring to fig. 4 and 5, the driving flow channel is provided with an abutting fitting block 111 by sliding the end away from the power supply body 2, the abutting fitting block 111 is provided with an inclined surface, the inclined surface is in abutting fitting with the rolling ball 33 in the driving flow channel, the abutting fitting block 111 runs through the supporting panel 11, the abutting fitting block 111 is provided with an end away from the power supply body 2, a fitting panel 112 is installed at the end, away from the power supply body 2, of the abutting fitting block 111, and a second spring 113 is connected between the fitting panel 112 and the supporting panel 11.

Referring to fig. 4, a permanent magnet 131 is installed at one end of the clamping link 13 away from the clamping stabilizer 12, two permanent magnets 131 are also installed on the power slide 31, and the permanent magnet 131 on the clamping link 13 has the same magnetism as the permanent magnet 131 on the power slide 31; the opposite sides of the side walls of the clamping and stabilizing piece 12 and the charging and storing cavity 3 are provided with electromagnets 34, and the magnetism of the electromagnets is opposite to that of the charging and storing cavity.

When the mobile power supply 100 pushes the longer vertical section of the clamping stabilizer 12 to move towards the supporting panel 11, the vertical section will contact with the matching panel 112 first to push the matching panel 112 to move towards the supporting panel 11, so that the second spring 113 is in a compressed state, and at the same time, the vertical section will slide along the plane of the matching panel 112, when the matching panel 112 moves towards the supporting panel 11, the matching block 111 will be driven to move synchronously, the matching block 111 will be abutted against the rolling ball 33 in the driving flow channel through the inclined plane and push the rolling ball 33 to move towards the arc flow channel, and further push all the rolling balls 33 in the arc flow channel in the driving flow channel to move synchronously, so that the rolling ball 33 pushes the power slide strip 31 to move towards the compression first spring 32, so that the first spring 32 is in a compressed state, and simultaneously the permanent magnet 131 on the power slide strip 31 moves the communication position of the power flow channel and the sliding hole formed in the side wall of the charging storage cavity 3, further, the permanent magnet 131 on the power slide bar 31 and the permanent magnet 131 on the clamping link 13 are located at opposite positions, and the clamping link 13 pushes the clamping stabilizing member 12 to move towards the direction of clamping the mobile power supply 100 due to the same magnetism of the two, it should be noted that the acting force generated by the permanent magnet 131 on the power slide bar 31 and the permanent magnet 131 on the clamping link 13 is greater than the sum of the elastic force of the first spring 32 and the elastic force of the second spring 113, so as to prevent the problem that the clamping stabilizing member 12 cannot clamp the mobile power supply 100 due to the excessively small acting force between the permanent magnet 131 on the power slide bar 31 and the permanent magnet 131 on the clamping link 13, and further prevent the mobile power supply 100 from being in butt joint with the charging insert 26 for charging.

When the mobile power supply 100 needs to be pulled out of the charging storage cavity 3, the electromagnet 34 of the clamping stabilizing member 12 and the electromagnet 34 of the side wall of the charging storage cavity 3 are electrified to generate opposite magnetism, and then the clamping stabilizing member 12 tends to move towards the side wall of the charging storage cavity 3 under the driving of the attraction force between the two, it should be noted that the acting force generated by the permanent magnet 131 on the power slide bar 31 and the permanent magnet 131 on the clamping connecting rod 13 is smaller than the sum of the acting force between the electromagnet 34 of the clamping stabilizing member 12 and the electromagnet 34 of the side wall of the charging storage cavity 3, the elastic force of the first spring 32 and the elastic force of the second spring 113, so as to ensure that the clamping stabilizing member 12 smoothly moves towards the side wall of the charging storage cavity 3, the mobile power supply 100 moves towards the direction far away from the power supply body 2 so that the mobile power supply 100 is not butted with the charging plug-in sheet 26, and the interference block 111 moves towards the direction far away from the power supply body 2 so that the interference block 111 is not interfered with the rolling ball 33, meanwhile, the power slide bar 31 is moved towards the direction away from the first spring 32 under the action of the first spring 32, and the permanent magnet 131 on the power slide bar 31 is no longer matched with the permanent magnet 131 on the clamping connecting rod 13, so that the clamping stabilizing piece 12 is ensured to move to the side wall of the charging storage cavity 3 smoothly, and the mobile power supply 100 can be taken out.

Referring to fig. 5, balls matched with the vertical section of the holding and stabilizing member 12 are uniformly arranged at one end of the matching panel 112 away from the abutting matching block 111; ensuring smooth sliding of the vertical section of the long length of the holding stabilizer 12 with the mating panel 112.

The invention comprises the following working steps: in the first step, the installation round rod 272 and the butting round rod 271 are matched to ensure that the connecting slide block 23 is successfully butted with the connecting seat 21 on the power supply body 2.

The second step is that: to wait to charge portable power source 100 place charge deposit chamber 3 in to promote portable power source 100 to remove towards power supply body 2 direction, through the conflict cooperation of the vertical section of centre gripping stabilizer 12 and cooperation panel 112, make conflict cooperation piece 111 conflict promotion rolling ball 33 remove, and then make the permanent magnet 131 on the power draw runner 31 and the permanent magnet 131 cooperation on the centre gripping connecting rod 13 produce the effort and promote centre gripping stabilizer 12 through centre gripping connecting rod 13 and hold portable power source 100, make portable power source 100 charge the interface and dock smoothly with the inserted sheet 26 that charges simultaneously.

The third step: when the mobile power supply 100 is charged and the mobile power supply 100 needs to be used, the electromagnet 34 is powered on to enable the clamping and stabilizing member 12 to move towards the side wall of the charging storage cavity 3, so that the clamping and stabilizing member 12 does not clamp the mobile power supply 100 any more, and the mobile power supply 100 can be taken out smoothly.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a portable power source sharing battery charging outfit, includes the power supply body (2) that charge seat storehouse (1) and supply portable power source to charge, its characterized in that: the charging seat bin (1) is of a regular polygon columnar structure, a hollow cavity is formed in the charging seat bin, a power supply body (2) is installed in the hollow cavity, the outer side wall of the charging seat bin (1) is uniform in circumferential direction and is provided with a plurality of charging storage cavities (3) at equal intervals from top to bottom, and the charging storage cavities (3) are used for placing a mobile power supply (100); wherein:

one side, facing the power supply body (2), of a charging storage cavity (3) in the charging seat bin (1) is provided with a T-shaped installation cavity which is communicated up and down, the upper end of the T-shaped installation cavity penetrates through the charging seat bin (1), two supporting panels (11) are symmetrically installed on the inner side wall of the T-shaped installation cavity, two symmetrically-arranged clamping and stabilizing pieces (12) are arranged in the charging storage cavity (3) in a sliding mode, two clamping connecting rods (13) which are in sliding fit with sliding holes formed in the side wall of the charging storage cavity (3) are installed on one side, opposite to each other, of each clamping and stabilizing piece (12), and the clamping connecting rods (13) are obliquely arranged towards the outer side of the charging seat bin (1);

the overlooking cross section of the clamping and stabilizing part (12) is of a U-shaped structure, the vertical section length of one side, facing the power supply body (2), of the clamping and stabilizing part (12) is longer than that of one side, facing the outer wall of the charging seat bin (1), of the vertical section length of one side, facing the power supply body (2), of the clamping and stabilizing part (12), a rectangular panel (121) for shielding the charging storage cavity (3) is arranged on one side, facing the back of the outer wall of the charging seat bin (1), of the clamping and stabilizing part (12), extension plates (122) are arranged at the upper end, the lower end and the side end of the opposite side, facing the outer wall of the charging seat bin (1), of the clamping and stabilizing part (12), and the vertical sections, far away from the power supply body (2), of the two extension plates (122) at the upper end and the lower end, opposite sides of the clamping and stabilizing part (12) form a clamping cavity;

every lateral wall of power supply body (2) is respectively from last down equidistant connecting seat (21) that is provided with, and is provided with contact conductor (22) that link to each other with power supply body (2) in connecting seat (21), two slide between support panel (11) and be provided with link block (23), and link block (23) mid-mounting has connecting conductor (24), link block (23) and connecting seat (21) butt joint, and link conductor (24) and contact conductor (22) contact, the one end that power supply body (2) was kept away from in link block (23) is installed charging socket (25) through the detachable mode, and charging socket (25) mid-mounting has charging insertion piece (26), charging insertion piece (26) and connecting conductor (24) contact.

2. The mobile power supply sharing charging device according to claim 1, wherein: charging and depositing the power runner that the slide opening that chamber (3) lateral wall was seted up and was deposited and charge in chamber (3) both sides wall and be linked together, supporting panel (11) have been seted up towards charging and have been deposited one side of chamber (3) lateral wall and have been seted up the drive runner, and drive runner and power runner are linked together through the arc runner, it is provided with power draw runner (31) to slide in the power runner, and is connected with between power runner's the one end of keeping away from the drive runner and power draw runner (31) first spring (32), all be provided with roll ball (33) in drive runner and the arc runner.

3. The mobile power supply sharing charging device according to claim 2, wherein: drive runner keep away from the one end of power supply body (2) and slide and be provided with conflict cooperation piece (111), and conflict cooperation piece (111) is provided with the inclined plane, the cooperation of contradicting of rolling ball (33) in inclined plane and the drive runner, conflict cooperation piece (111) runs through supporting panel (11), and conflict cooperation piece (111) keep away from the one end of power supply body (2) and install cooperation panel (112), be connected with second spring (113) between cooperation panel (112) and supporting panel (11).

4. The mobile power supply sharing charging device according to claim 2, wherein: a permanent magnet (131) is installed at one end, far away from the clamping stabilizing piece (12), of the clamping connecting rod (13), two permanent magnets (131) are also arranged on the power slide bar (31), and the permanent magnets (131) on the clamping connecting rod (13) are the same as the permanent magnets (131) on the power slide bar (31) in magnetism; the opposite sides of the side walls of the clamping and stabilizing piece (12) and the charging and storing cavity (3) are respectively provided with an electromagnet (34), and the magnetism of the two is opposite.

5. The mobile power supply sharing charging device according to claim 3, wherein: and one end of the matching panel (112) far away from the abutting matching block (111) is uniformly provided with balls matched with the vertical section of the clamping stabilizing piece (12).

6. The mobile power supply sharing charging device according to claim 1, wherein: support panel (11) one side symmetry towards power supply body (2) be provided with vertical butt joint stabilizer plate (27) of arranging, the sliding fit groove has been seted up to butt joint stabilizer plate (27) upper end, the sliding fit groove includes the rectangular channel and is located the circular recess and the kidney slot of rectangular channel both sides, the circular recess is close to support panel (11) one side, and the kidney slot is close to power supply body (2) one side, circular recess diameter and kidney slot diameter all are greater than the width of rectangular channel.

7. The mobile power supply sharing charging device according to claim 6, wherein: sliding fit inslot slip be provided with the butt joint subassembly, the butt joint subassembly is including butt joint round bar (271), installation round bar (272), connecting rod (273) and reset spring (274), butt joint round bar (271) slides and sets up in the circular recess, installation round bar (272) slide and set up in kidney-shaped inslot, connecting rod (273) and reset spring (274) all set up in the rectangular channel, it has connecting rod (273) to articulate between butt joint round bar (271) and installation round bar (272), be connected with reset spring (274) between connecting rod (273) and the butt joint round bar (271), be located same charge and deposit two butt joint round bar (271) tops and two installation round bar (272) tops in chamber (3) and all connect through connecting plate (275).

8. The mobile power supply sharing charging device according to claim 7, wherein: be located same two installation round bar (272) opposite sides of depositing chamber (3) of charging and all install accessory plate (276), link block (23) both sides all are connected with mounting panel (277), all be located same T type installation intracavity link block (23) all connect respectively on two accessory plate (276) of relative distribution through mounting panel (277) above that, the cooperation spout (278) with the kidney slot intercommunication is seted up to the opposite side of butt joint stabilising plate (27), accessory plate (276) slide and set up in cooperation spout (278).

9. The mobile power supply sharing charging device according to claim 7, wherein: t type installation cavity top both sides wall all is provided with flexible panel (28), and is located the height that highly is higher than the flexible panel (28) of installation round bar (272) top of the flexible panel (28) of the flexible of butt joint round bar (271) top, the upper end of the relative one side of flexible panel (28) is provided with the inclined plane that is convenient for butt joint round bar (271) and installation round bar (272) move down.

10. The mobile power supply sharing charging device according to claim 7, wherein: the upper end of the charging seat bin (1) is provided with a top cover (29) for shielding the T-shaped mounting cavity through a screw.

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