CN113572245B - Automatic charging equipment of mobile device - Google Patents

Abstract

The invention discloses automatic charging equipment for mobile equipment, which comprises a charging box fixedly arranged on a bottom plate, wherein an equipment cavity and a plurality of placing grooves are formed in the charging box, a storage rack is arranged in each placing groove through a positioning mechanism, an installation block is arranged on each storage rack through a sliding mechanism, a plurality of conductive plates are fixedly arranged in the equipment cavity through a storage battery, a heat conduction column is fixedly arranged on each conductive plate, a conductive mechanism is arranged between each heat conduction column and the corresponding installation block, and two memory alloy rods are fixedly arranged on each heat conduction column through two heat conduction plates. Has the advantages that: can carry out automatic positioning to mobile device when mobile device charges, increase its stability of charging connection, and carry out the auto-power-off after the completion of charging, avoid mobile device to carry out the electric current interaction for a long time and cause the damage to can avoid the electric quantity extravagant.

Description

Automatic charging equipment of mobile device

Technical Field

The invention relates to the technical field of mobile equipment charging, in particular to automatic mobile equipment charging equipment.

Background

The automatic charging equipment is equipment which is arranged in shopping malls, tourist parks and the like and is used for mobile devices such as mobile phones and flat plates to move for charging at any time, and Chinese utility model patent with the patent number of CN206023277U discloses a mobile device charger which comprises a shell, a charger wire and a winding device; the shell is provided with a power plug; the charger wire is electrically connected with the power plug; the winding device comprises a winding reel and a handle; the winding reel is connected with the handle; the winding reel is arranged inside the shell, and the handle is arranged outside the shell; the handle can drive the winding reel to rotate relative to the shell, so that the charger wire is wound on the winding reel or separated from the winding reel along with the rotation of the winding reel; the shell is provided with a wire outlet;

the above device still has the following disadvantages when in use:

1. the existing device can not automatically position the mobile equipment when the mobile equipment is charged, the mobile equipment is not stable enough, and the charging port of the existing device is easy to fall off from the charging device under the influence of external force;

2. after the mobile equipment is charged, the mobile equipment cannot be automatically pushed out in time to be powered off, the service life of a battery of the mobile equipment is damaged when the mobile equipment carries out current interaction for a long time, and the electric quantity is wasted due to the fact that the mobile equipment cannot be powered off in time, so that certain limitation is realized;

therefore, it is desirable to design an automatic charging device for mobile devices to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides automatic charging equipment for mobile equipment.

In order to achieve the purpose, the invention adopts the following technical scheme:

an automatic charging device for mobile equipment comprises a charging box fixedly mounted on a bottom plate, wherein an equipment cavity and a plurality of placing grooves are formed in the charging box, a storage rack is mounted in each placing groove through a positioning mechanism, a mounting block is mounted on each storage rack through a sliding mechanism, a plurality of conductive plates are fixedly mounted in the equipment cavity through a storage battery, a heat conduction column is fixedly mounted on each conductive plate, a conductive mechanism is mounted between each heat conduction column and the corresponding mounting block, two memory alloy rods are fixedly mounted on each heat conduction column through two heat conduction plates, and a transmission mechanism is mounted between each storage rack and the corresponding placing groove;

the positioning mechanism comprises a limiting sliding groove arranged in the charging box, the limiting sliding groove is communicated with the placing groove, a sliding plate matched with the limiting sliding groove is fixedly arranged on the storage rack, a placing plate is fixedly arranged in the storage rack, a lifting plate is fixedly arranged in the storage rack through a plurality of extrusion springs, a positioning plate is fixedly arranged on the lifting plate through a plurality of compression springs, the placing plate and the positioning plate are oppositely arranged, a connecting structure is arranged between the positioning plate and the mounting block, and two condensing structures are arranged in the storage rack;

drive mechanism includes two reset spring of fixed mounting on the standing groove, and the equal fixed mounting of the other end of two reset spring on the supporter, install two block structures between supporter and the standing groove, the intercommunication has two lantern rings between equipment chamber and the standing groove, and two memory alloy poles are located two lantern rings respectively, two equal fixed mounting has the lapse ball with supporter matched with on the memory alloy pole.

Further, connection structure includes two limiting plates of fixed mounting on the installation piece, fixedly connected with haulage rope between installation piece and the lifter plate, and fixed mounting has the bull stick in the supporter, and fixed mounting has the fixed pulley with haulage rope matched with on the bull stick.

Further, the condensation structure includes the condensing box of fixed mounting on the supporter lateral wall, and the condensing box intussuseption is filled with the condensate, the condensing box with place between the board fixed mounting have the heat conduction pole, fixed mounting has the condensation pull ring on the condensing box, and the both ends of condensation pull ring all communicate with the condensing box mutually.

Further, slide mechanism includes the trapezoidal slider of fixed mounting on the installation piece, set up the trapezoidal spout with trapezoidal slider matched with on the supporter.

Further, electrically conductive mechanism includes two connecting rods of fixed mounting on the installation piece, and fixed mounting has the pusher jack on two connecting rods, and the pusher jack is located the equipment intracavity, fixed mounting has charging tube on the current conducting plate, and heat conduction post fixed mounting is in charging tube's outside, fixed mounting has the charging panel on the installation piece, and the model of every charging panel is all inequality, and fixed mounting has the pole that charges between charging panel and the pusher jack, and the pole that charges cooperatees with charging tube.

Furthermore, the block structure includes the connecting rod of fixed mounting on the supporter, and fixed mounting has the block ball on the connecting rod, fixed mounting has the block piece in the standing groove, and sets up in the block piece and block ball matched with plasticity block groove.

Compared with the prior art, the invention has the advantages that:

1: be provided with the charging panel of a plurality of differences among this battery charging outfit, can be applicable to the mobile device that multiple charging ports such as apple, ann are tall and erect, tap-C are different and use, and the adaptation scope is wider, and the in-service use effect is better.

2: when the charging port on the mobile equipment is connected with the charging panel in the charging equipment, the mobile equipment can be automatically positioned and fixed, so that the mobile equipment cannot shake during charging, and the charging connection stability is high.

3: after the mobile device is charged, the charging device can automatically cut off the power supply, the mobile device is prevented from being continuously charged, the electric quantity can be prevented from being wasted, the mobile device can be automatically pushed out, a user is reminded of completing charging, and the mobile device is taken out in time.

In summary, the mobile device can be automatically positioned when the mobile device is charged, so that the stability of charging connection of the mobile device is improved, and the mobile device is automatically powered off after charging is completed, thereby avoiding damage caused by long-time current interaction of the mobile device and avoiding electric quantity waste.

Drawings

Embodiments of the invention are described in further detail below with reference to the attached drawing figures, wherein:

fig. 1 is a schematic structural diagram of an automatic charging device for a mobile device according to the present invention;

fig. 2 is a sectional view of the charging case of fig. 1;

figure 3 is an enlarged view of the connection structure between the article rack and the battery in figure 2;

figure 4 is a schematic view of the attachment of the luggage carrier of figure 3 to an upper portion thereof, shown rotated through an angle;

figure 5 is an internal schematic view of the luggage carrier of figure 3;

FIG. 6 is an enlarged view of the engaging block and the engaging ball shown in FIG. 4;

FIG. 7 is an enlarged view of the mounting block, the lifter plate and a portion of the connection therebetween of FIG. 5;

fig. 8 is an enlarged view of a portion of the connection structure between the mounting block and the conductive plate of fig. 4.

In the figure: 1 bottom plate, 2 charging cases, 3 standing grooves, 4 supporter, 5 equipment chambeies, 6 batteries, 7 standing plates, 8 locating plates, 9 condensation pull rings, 10 sliding plates, 11 condensing cases, 12 reset springs, 13 conductive plates, 14 memory alloy pole, 15 block, 16 block balls, 17 installation pieces, 18 pass board, 19 connecting rods, 20 lifter plates, 21 extrusion spring, 22 bull stick, 23 fixed pulleys, 24 haulage rope, 25 limiting plates, 26 charging plates, 27 charging pole, 28 lantern rings, 29 heat conduction post, 30 torch, 31 heat conduction plate.

Detailed Description

Referring to fig. 1-5 and fig. 7, an automatic charging device for mobile equipment comprises a charging box 2 fixedly mounted on a bottom plate 1, wherein an equipment cavity 5 and a plurality of placing grooves 3 are formed in the charging box 2, an article placing shelf 4 is mounted in each placing groove 3 through a positioning mechanism, and a mounting block 17 is mounted on each article placing shelf 4 through a sliding mechanism;

the following points are notable:

1. positioning mechanism is including seting up the spacing spout in charging case 2, and spacing spout is linked together with standing groove 3, and fixed mounting has the sliding plate 10 with spacing spout matched with on the supporter 4, and spacing spout is used for making supporter 4 can slide in standing groove 3 with sliding plate 10 mutually supporting to subsequent location and the operation of charging are carried out.

2. A connecting structure is arranged between the positioning plate 8 and the mounting block 17, the connecting structure comprises two limiting plates 25 fixedly mounted on the mounting block 17, a traction rope 24 is fixedly connected between the mounting block 17 and the lifting plate 20, a rotating rod 22 is fixedly mounted in the storage rack 4, and a fixed pulley 23 matched with the traction rope 24 is fixedly mounted on the rotating rod 22;

fixed mounting places board 7 in the supporter 4, and the mobile device is placed on placing board 7 to make the port that charges on it align with charging panel 26, promote the mobile device again and make it slide on placing board 7, and make the port block that charges on the mobile device to charging panel 26 in, can accomplish the connection of charging.

3. There is lifter plate 20 through a plurality of extrusion springs 21 fixed mounting in the supporter 4, and there is locating plate 8 through a plurality of compression spring fixed mounting on the lifter plate 20, the mobile device is charged and is connected the completion after, can promote the mobile device once more and drive installation piece 17 inwardly moved, can stimulate haulage rope 24 to remove when installation piece 17 removes promptly, thereby can stimulate lifter plate 20 and the 8 decline of locating plate of the 24 other ends of haulage rope, when locating plate 8 descends to the upper portion with the mobile device and extrudes the laminating mutually, can carry out automatic positioning fixed to the mobile device promptly.

4. The sliding mechanism comprises a trapezoidal sliding block fixedly mounted on the mounting block 17, a trapezoidal sliding groove matched with the trapezoidal sliding block is formed in the article placing frame 4, and the sliding mechanism is used for enabling the mounting block 17 to horizontally slide on the article placing frame 4 only and cannot shift when moving.

5. The limiting plate 25 on the mounting block 17 plays a limiting role for limiting the maximum distance of inward movement of the mounting block 17, and preventing the mounting block 17 from being separated from the commodity shelf 4 when moving.

Referring to fig. 3-4, 6 and 8, a plurality of conductive plates 13 are fixedly installed in the equipment cavity 5 through a storage battery 6, a heat conduction column 29 is fixedly installed on each conductive plate 13, a conductive mechanism is installed between each heat conduction column 29 and the corresponding installation block 17, two memory alloy rods 14 are fixedly installed on each heat conduction column 29 through two heat conduction plates 31, and a transmission mechanism is installed between each storage rack 4 and the corresponding placement groove 3;

the following points are notable:

1. the conductive mechanism comprises two connecting rods 19 fixedly mounted on a mounting block 17, push plates 18 are fixedly mounted on the two connecting rods 19, the push plates 18 are located in the equipment cavity 5, a charging tube 30 is fixedly mounted on a conductive plate 13, a heat conduction column 29 is fixedly mounted outside the charging tube 30, a charging plate 26 is fixedly mounted on the mounting block 17, a charging pole 27 is fixedly mounted between the charging plate 26 and the push plates 18, and the charging pole 27 is matched with the charging tube 30;

after mobile device automatic positioning accomplished, continue to inwards impel the mobile device this moment and can drive supporter 4 and wholly remove in standing groove 3, supporter 4 can drive thrust plate 18 through two connecting rods 19 when removing, charge pole 27 removes in equipment chamber 5, when charge pole 27 removes to charging barrel 30 in and the block is fashionable, can accomplish battery 6, current conducting plate 13, charging barrel 30, charge pole 27, the electricity between the charging panel 26 is connected, thereby accessible charging panel 26 charges to the mobile device.

2. The models of the charging plates 26 are different, the charging plates can be suitable for mobile devices with different charging ports such as apples, android and tap-C, the adaptation range is wider, and the actual using effect is better.

3. Two clamping structures are installed between the commodity shelf 4 and the placing groove 3, each clamping structure comprises a connecting rod fixedly installed on the commodity shelf 4, a clamping ball 16 is fixedly installed on each connecting rod, a clamping block 15 is fixedly installed in the placing groove 3, a plastic clamping groove matched with the clamping ball 16 is formed in each clamping block 15, when the commodity shelf 4 is pushed inwards, the connecting rods and the clamping balls 16 can be driven to move, when the clamping balls 16 move to the plastic clamping grooves, plastic clamping positioning can be carried out, the commodity shelf 4 can be fixed, and the commodity shelf cannot move when being free of external force.

4. The transmission mechanism comprises two return springs 12 fixedly arranged on the placing groove 3, the other ends of the two return springs 12 are fixedly arranged on the article placing frame 4, two lantern rings 28 are communicated between the equipment cavity 5 and the placing groove 3, the two memory alloy rods 14 are respectively positioned in the two lantern rings 28, and pushing balls matched with the article placing frame 4 are fixedly arranged on the two memory alloy rods 14;

when the commodity shelf 4 moves, the two return springs 12 are extruded, when the charging barrel 30 performs charging operation, partial heat is generated due to electric quantity circulation, the generated heat is gradually conducted to the memory alloy rod 14 through the heat conduction column 29 and the heat conduction plate 31, the memory alloy rod 14 gradually extends when being heated, the memory alloy rod 14 drives the push ball on the memory alloy rod to move when extending, when the push ball moves to contact with and extrude the commodity shelf 4, the commodity shelf 4 is pushed to move, and when the commodity shelf 4 moves, the connecting rod and the clamping ball 16 are driven to move, so that the clamping ball 16 is gradually separated from the plastic clamping groove;

when 16 with the complete separation of plasticity block groove of block ball, can remove the fixed state of supporter 4 promptly, two reset spring 12 atresss reduce promptly and can the automatic extension reset this moment to can promote supporter 4 quick travel, can drive installation piece 17 and charge pole 27 removal promptly, and make charge pole 27 and the separation of charging barrel 30, can accomplish the outage separation, and supporter 4 can promote the mobile device from standing groove 3 when removing, thereby can remind the personnel that charge to charge the completion.

6. Two condensation structures are arranged in the commodity shelf 4, each condensation structure comprises a condensation box 11 fixedly arranged on the side wall of the commodity shelf 4, condensate is filled in the condensation box 11, a heat conducting rod is fixedly arranged between the condensation box 11 and the placing plate 7, a condensation pull ring 9 is fixedly arranged on the condensation box 11, and two ends of the condensation pull ring 9 are communicated with the condensation box 11;

its self also can produce partial heat when mobile device charges, and the heat can be through placing board 7, the condensate of conducting to the condensing box 11 in of heat conduction pole, and the condensate can fast heat absorption and gasification promptly be the condensing gas, and the condensing gas can carry out the circulation liquefaction promptly in two condensation pull rings 9, gives off the heat, can carry out the condensation heat dissipation to mobile device, makes it can not be overheated.

Claims (6)

1. An automatic charging device of mobile equipment comprises a charging box (2) fixedly arranged on a bottom plate (1), it is characterized in that the charging box (2) is provided with an equipment cavity (5) and a plurality of placing grooves (3), and each placing groove (3) is internally provided with a shelf (4) through a positioning mechanism, each shelf (4) is provided with a mounting block (17) through a sliding mechanism, a plurality of conductive plates (13) are fixedly arranged in the equipment cavity (5) through a storage battery (6), a heat-conducting column (29) is fixedly arranged on each conductive plate (13), and a conductive mechanism is arranged between each heat-conducting column (29) and the corresponding mounting block (17), two memory alloy rods (14) are fixedly arranged on each heat-conducting column (29) through two heat-conducting plates (31), and a transmission mechanism is arranged between each article placing rack (4) and the corresponding placing groove (3);

the positioning mechanism comprises a limiting sliding groove arranged in the charging box (2), the limiting sliding groove is communicated with the placing groove (3), a sliding plate (10) matched with the limiting sliding groove is fixedly installed on the storage rack (4), a placing plate (7) is fixedly installed in the storage rack (4), a lifting plate (20) is fixedly installed in the storage rack (4) through a plurality of extrusion springs (21), a positioning plate (8) is fixedly installed on the lifting plate (20) through a plurality of compression springs, the placing plate (7) and the positioning plate (8) are arranged oppositely, a connecting structure is installed between the positioning plate (8) and the mounting block (17), and two condensing structures are installed in the storage rack (4);

drive mechanism includes two reset spring (12) of fixed mounting on standing groove (3), and the equal fixed mounting of the other end of two reset spring (12) on supporter (4), install two block structures between supporter (4) and standing groove (3), the intercommunication has two lantern rings (28) between equipment chamber (5) and standing groove (3), and two memory alloy pole (14) are located two lantern rings (28) respectively, two equal fixed mounting has on memory alloy pole (14) and passes the ball with supporter (4) matched with.

2. The automatic charging equipment of mobile equipment according to claim 1, wherein the connecting structure comprises two limiting plates (25) fixedly mounted on a mounting block (17), a pulling rope (24) is fixedly connected between the mounting block (17) and the lifting plate (20), a rotating rod (22) is fixedly mounted in the storage rack (4), and a fixed pulley (23) matched with the pulling rope (24) is fixedly mounted on the rotating rod (22).

3. The automatic charging equipment of mobile equipment according to claim 1, wherein the condensation structure comprises a condensation box (11) fixedly mounted on the side wall of the storage rack (4), the condensation box (11) is filled with condensate, a heat conducting rod is fixedly mounted between the condensation box (11) and the placing plate (7), a condensation pull ring (9) is fixedly mounted on the condensation box (11), and two ends of the condensation pull ring (9) are communicated with the condensation box (11).

4. The automatic charging equipment of mobile equipment according to claim 1, wherein the sliding mechanism comprises a trapezoidal sliding block fixedly mounted on the mounting block (17), and a trapezoidal sliding groove matched with the trapezoidal sliding block is formed in the storage rack (4).

5. The automatic charging equipment of the mobile equipment according to claim 1, wherein the conductive mechanism comprises two connecting rods (19) fixedly installed on a mounting block (17), a pushing plate (18) is fixedly installed on the two connecting rods (19), the pushing plate (18) is located in the equipment cavity (5), a charging tube (30) is fixedly installed on the conductive plate (13), a heat conducting column (29) is fixedly installed outside the charging tube (30), a charging plate (26) is fixedly installed on the mounting block (17), the model of each charging plate (26) is different, a charging pole (27) is fixedly installed between the charging plate (26) and the pushing plate (18), and the charging pole (27) is matched with the charging tube (30).

6. The automatic charging equipment for the mobile equipment according to claim 1, wherein the clamping structure comprises a connecting rod fixedly mounted on the article placing rack (4), a clamping ball (16) is fixedly mounted on the connecting rod, a clamping block (15) is fixedly mounted in the placing groove (3), and a plastic clamping groove matched with the clamping ball (16) is formed in the clamping block (15).

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