CN115056671B - Charging pile capable of realizing multi-port output - Google Patents

Abstract

The invention discloses a high-efficiency charging pile capable of realizing multi-port output, which comprises a storage platform, wherein four sides of the storage platform are of an open structure, and a charging box I is arranged at the top of the storage platform; the front of the charging box I is provided with a notch in a penetrating way, the inside of the notch is provided with a storage plate in a sliding way, the back of the storage plate is provided with a charging box II, the charging box II is positioned in the charging box I, the back of the charging box II is provided with a charging socket and a charging block, the charging block is positioned below the charging socket, and the back of the charging block is provided with a charging head I; and a charging wire is arranged at the output end of the first charging head. According to the invention, the object placing table, the object placing plate, the second charging box, the charging block and the first charging head are arranged, when the electric tricycle or the electric bicycle charging device is used, the second charging box is pulled out of the notch through the object placing plate, and then the first charging head on the charging block is used for charging the electric tricycle or the electric bicycle.

Description

Charging pile capable of realizing multi-port output

Technical Field

The invention relates to the technical field of charging piles, in particular to a charging pile capable of realizing multi-port output.

Background

Along with the development of science and technology, the use of charging stake is more and more frequent, and current charging stake can only charge to single electric automobile or storage battery car in the use mostly, and the practicality is relatively poor, consequently, the high-efficient electric pile that fills that can realize multiport output is urgently needed to realize carrying out the operation of charging to multiple type electric automobile or storage battery car.

The existing charging pile has the following defects:

1. patent document CN213472853U provides an environmental protection solar charging pile, relates to charging pile design technical field. This stake is filled to environmental protection solar energy, including charging the stake shell, charging stake shell one end fixedly connected with waterproof housing, charging stake shell bottom fixedly connected with strutting arrangement, the inside bottom fixedly connected with silicon photocell group of charging stake shell, charging stake shell bottom one end runs through fixedly connected with conduit, and silicon photocell group is close to conduit one end fixedly connected with wire. According to the environment-friendly solar charging pile, the photosensitive sensor, the rubber supporting plate, the rotating shaft and the solar cell panel are matched to adjust the angle of the solar cell panel, so that the solar cell panel can adjust the direction of the solar cell panel along with the change of the angle of the sun, solar energy is efficiently converted, and the silicon photocell group stores converted electric energy, so that the device can provide enough electric energy, the problem that the electric energy can not be efficiently converted and the electric energy provided by the solar energy is very small is solved, but the charging pile in the above publication mainly considers how to ensure that the device can provide enough electric energy, and does not consider the problem that the existing charging pile has single function in use;

2. patent document CN215904342U discloses a vertical side anticollision formula fills electric pile for pure electric vehicles, including the installation base, it is fixed subaerial at the level, the sliding tray has been seted up at the top of installation base, and the top threaded connection of installation base has fastening bolt. This vertical avris anticollision type fills electric pile for pure electric vehicles is provided with sliding tray and automatically controlled gyro wheel, receive the external force impact of side when U type buffer board, the inboard connecting spring of U type buffer board will cushion the impact force, after the pressure sensing piece in the connecting spring outside sensed the impact force simultaneously, will send the automatically controlled gyro wheel of signal control along the inner wall opposite direction removal of sliding tray, avoid external force to continue to strike the electric pile, the electric pile after the improvement is equipped with dodging structure, when the avris of electric pile receives the striking, not only can weaken and cushion the external force, can also directly avoid the impact force, can carry out fine protection to the electric pile, still be difficult for causing buffer structure to damage, the holistic anticollision effect of electric pile is better, but the electric pile in the above-mentioned publication mainly considers how to improve the anticollision effect of electric pile, and do not consider that current electric pile does not have limit function in the use;

3. patent document CN214492576U discloses a charging pile with heat dissipation and anti-theft functions, comprising a charging pile body and a base; and (2) base: the front side and the rear side of the base are respectively provided with air outlet holes in rectangular array arrangement, a wireless transceiver module is fixed on the lower side of the interior of the base, and the left end and the right end of the base are respectively threaded through ground screws; charging pile body: the lower extreme alternates in the upper end of base, the upside of charging pile body all is equipped with into the gas pocket around, the downside straight line array of charging pile body has arranged the gas pocket, the downside of charging pile body is fixed with the fan, the fan is located the gas pocket under, and the left and right sides of charging pile body all is fixed with the side casing. The charging pile with the heat dissipation and anti-theft functions can ventilate the interior of the charging pile at first, prevent sunlight from directly shining, further dissipate heat of the charging pile, and also can prop up ground nails connected with the ground after the charging pile is installed, so that the ground nails are prevented from being pulled out, and further the charging pile is prevented from being stolen;

4. patent document CN213082939U discloses a waterproof anticorrosion's car fills electric pile, including filling electric pile body, waterproof construction, charging connector and protection casing, the bottom of filling electric pile body is provided with shock-absorbing structure, the bottom of filling electric pile body's inside is provided with waterproof construction. The utility model provides a waterproof anticorrosion's car fills electric pile, through having set gradually the kerve in shock-absorbing structure's inside, the sliding block, the bracing piece, the articulated lever, a spring, fixture block and draw-in groove, when filling electric pile body receives external effort, articulated lever height pushes down, articulated lever can promote the sliding block respectively and slide to both sides this moment, then the spring shrink, when external effort disappears, the sliding block slides to intermediate position department owing to the elasticity that receives the spring, articulated lever height will rise like this, thereby make filling electric pile body reset, cyclic reciprocation, just so can realize the shock attenuation effect of device, prevent to fill electric pile body and take place to damage owing to receive external effort great and take place, but the phenomenon that fills electric pile body and damage owing to receive external effort great and take place by the main consideration of filling electric pile in the above-mentioned publication, and the problem that current filling electric pile is not convenient to assemble.

Disclosure of Invention

The invention aims to provide a charging pile capable of realizing multi-port output so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the charging pile comprises a storage table, wherein four sides of the storage table are of an open structure, and a charging box I is arranged at the top of the storage table;

the front of the charging box I is provided with a notch in a penetrating way, the inside of the notch is provided with a storage plate in a sliding way, the back of the storage plate is provided with a charging box II, the charging box II is positioned in the charging box I, the back of the charging box II is provided with a charging socket and a charging block, the charging block is positioned below the charging socket, and the back of the charging block is provided with a charging head I;

and a charging wire is arranged at the output end of the first charging head.

Preferably, the back of putting the thing board is installed and is put the thing pole, and connecting rod one and connecting rod two are installed at the top of putting the thing pole, and connecting rod one and connecting rod two all are located the rear of charging box two, and the height of connecting rod one is less than the height of connecting rod two, and the top surface of connecting rod two cup joints and installs the connecting plate, and the surface of connecting plate is provided with embedded thing groove of putting, and the surface of connecting plate is provided with the jack, and the surface mounting of connecting plate has the limiting plate, and the internal surface mounting of limiting plate has the inserted bar one, and the surface mounting of limiting plate has the pull rod.

Preferably, the bottom of charging box two is installed electro-magnet one, and servo motor is installed to the diapire of putting the thing platform, and servo motor's output installs the connecting rod three, and connecting rod four is installed in the front of connecting rod three, and connecting rod four is "L" font structure, and connecting rod four is located one side of putting the thing platform, and iron plate one is installed on the top of connecting rod four.

Preferably, the loading board of arranging from top to bottom is installed in the front of charging box one, and the loading board is located one side of notch, and the carrier block is all installed to the surface that two sets of loading boards are close to each other, and the top of below carrier block is provided with downwardly extending's slot, and the bottom slidable mounting of top carrier block has the inserted block, and the backup pad is installed to the bottom of inserted block, and the pull ring is installed in the front of backup pad, and the bottom of backup pad is provided with the slotted hole, and the connecting block is installed through the shaft piece to the slotted hole roof, and the spring is installed to the bottom of connecting block, and the spring is located the inboard of slotted hole, and the inserted bar second is installed to the bottom of spring, and the inserted bar second is gomphosis with the below carrier block, and the surface mounting of inserted bar second has the pin.

Preferably, the object placing rod is positioned below the second charging box, the connecting rod is positioned at one side of the first connecting rod, the jack is positioned at one side of the object placing groove, the limiting plate is positioned at the other side of the object placing groove, the limiting plate is made of silica gel, and the first inserting rod is embedded with the jack;

the back of backup pad is connected with the front of putting the thing board, and the pin is located the inboard of slot, pulls the pull ring, can drive the backup pad and rotate between two sets of carrier blocks under the effect of connecting block shaft spare, and the pivoted angle is "0-180".

Preferably, the back of the supporting plate is provided with a second iron block, the front of the first charging box is internally provided with an electromagnet II, the electromagnet II is positioned at the other side of the notch, and the front of the electromagnet II is attached to the back of the second iron block.

Preferably, the back of the storage plate is provided with a baffle cover, the baffle cover is of a concave structure, the baffle cover is positioned on the outer side of the second charging box, and the top of the baffle cover is inclined downwards.

Preferably, the charging head II is placed on the outer wall of one side of the charging box I, the rain shield is installed at the top of the charging box I, and the size of the rain shield is larger than that of the charging box I.

Preferably, the working steps of the charging pile are as follows:

s1, before the charging pile is used, firstly lifting the stop lever upwards, further driving the second inserting rod to shrink into the slot hole, extruding the spring, then inserting the inserting block into the upper bearing block, then moving the supporting plate until the second inserting rod is embedded with the lower bearing block, and limiting the second inserting rod through the embedding of the stop lever and the slot;

s2, when the electric automobile is required to be charged, the charging head II is firstly taken down from the charging box I, and then the electric automobile can be charged through the charging head II;

s3, when the storage battery car and the like are charged, the electromagnet II is powered off, so that the iron block II is not attracted with the electromagnet II any more, and then the pull ring is pulled, so that the storage plate can be driven to move out of the notch under the action of the supporting plate;

s4, after the connecting rod is rotated to a proper position, starting a servo motor so as to drive the connecting rod III to do circular motion, further driving the connecting rod IV to approach the charging box II, and then powering on the electromagnet I until the iron block I on the connecting rod IV is attracted with the electromagnet I, and then improving the stability of the charging box II in use through the attraction of the iron block I and the electromagnet I;

s5, the pull rod is pulled outwards, so that the inserting rod on the limiting plate is driven to be not embedded with the inserting hole any more, the charging wire can be taken out from the storage groove, and then the charging operation can be carried out on the battery car and the like through the charging head.

Preferably, in the step S3, the method further includes the following steps:

s31, in the process of pulling the pull ring, the supporting plate can rotate in the middle of the two groups of bearing blocks under the action of the inserting block and the shaft piece, so that the supporting plate can be driven to move along the direction of 0-180 degrees;

in the step S5, the method further includes the following steps:

s51, in the charging process, if a user carries a charging wire, the charging wire can be inserted into the charging jack to perform charging operation, so that flexibility and versatility of the charging pile in use can be improved to a certain extent, and influence of rain and snow weather on the charging pile in use can be reduced through the arrangement of the shielding cover and the rain shielding cover.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the first storage table, the first charging box, the notch, the storage plate, the second charging box, the charging socket, the charging block and the first charging head are arranged, when the charging device is used, the second charging box is pulled out of the notch through the storage plate, then the charging operation can be carried out on the electric tricycle or the electric vehicle through the first charging head on the charging block, and the output quantity of the port of the charging pile can be increased through the arrangement of the charging socket.

2. According to the invention, the charging wire is wound on the first connecting rod after charging is finished by installing the first connecting rod, the second connecting rod, the connecting plate, the storage groove, the jack, the limiting plate, the first inserting rod and the pull rod, the tail end of the charging wire is sleeved in the storage groove on the connecting plate, and then the pull rod is moved, so that the first inserting rod on the limiting plate is driven to be inserted into the jack, and the purpose of carrying out storage operation on the charging wire is achieved.

3. According to the invention, the servo motor, the third connecting rod, the fourth connecting rod, the first iron block and the first electromagnet are arranged, when the charging box II is used for charging, the servo motor is started, so that the third connecting rod is driven to rotate, then the fourth connecting rod can be driven to rotate under the action of the third connecting rod, and then the first electromagnet is electrified until the first iron block at the top end of the slowly rotating connecting rod is attracted with the first electromagnet.

4. Before the charging pile is used, the insert block is inserted into the upper bearing block, and the stop lever is pushed upwards, so that the insert block can drive the insert rod II to shrink into the slot hole, then the support plate is pushed, and the stop lever is released until the insert rod II is embedded with the bearing block below, and the stop lever is driven to be positioned at the inner side of the slot.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic plan assembly view of the support plate of the present invention;

FIG. 3 is a schematic diagram of an assembling structure of a carrier plate according to the present invention;

fig. 4 is a schematic diagram of an assembled structure of a second charging box according to the present invention;

FIG. 5 is a schematic diagram of an assembled structure of a second connecting rod according to the present invention;

FIG. 6 is a schematic diagram of an assembled structure of a servo motor according to the present invention;

FIG. 7 is a schematic plan view of an assembled plate according to the present invention;

FIG. 8 is a schematic view of an assembled structure of the slot of the present invention;

fig. 9 is a flowchart of the operation of the present invention.

In the figure: 1. a storage table; 2. a charging box I; 3. a notch; 4. a storage plate; 5. a second charging box; 6. a charging jack; 7. a charging block; 8. a first charging head; 9. a shield; 10. a storage rod; 11. a first connecting rod; 12. a second connecting rod; 13. a connecting plate; 14. a storage groove; 15. a jack; 16. a limiting plate; 17. the first inserting rod is arranged; 18. a pull rod; 19. a servo motor; 20. a third connecting rod; 21. a fourth connecting rod; 22. iron block I; 23. an electromagnet I; 24. a carrying plate; 25. a bearing block; 26. a slot; 27. inserting blocks; 28. a support plate; 29. the second inserting rod is arranged; 30. a stop lever; 31. a spring; 32. iron block II; 33. an electromagnet II; 34. a rain shield; 35. and a second charging head.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1, 4, 7, 8 and 9, an embodiment of the present invention is provided: the utility model provides a can realize charge stake of multiport output, including putting thing platform 1, keep off cover 9 and charging first two 35, put the four sides of thing platform 1 and be open structure, put the top of thing platform 1 and install charging box one 2, charging box one 2's front is run through and is provided with notch 3, the inside slidable mounting of notch 3 has puts thing board 4, put the back-mounted of thing board 4 has charging box two 5, and charging box two 5 is located charging box one 2's inside, charging box two 5's back-mounted has charging socket 6 and charging piece 7, and charging piece 7 is located charging socket 6's below, charging piece 7's back-mounted has charging first 8, charging first 8's output is installed the charging wire, put thing board 4's back-mounted and keep off cover 9, and keep off cover 9 is "concave" font structure, keep off cover 9 is located charging box two 5's outside, the top of keeping off cover 9 is the slope downwards, charging box one side outer wall of charging box one 2 has placed charging first two 35, charging box one 2's top is installed and is kept off cover 34, and the size of keeping off cover 34 is greater than charging box one 2.

Further, when needs charge to electric automobile, accessible charge first two 35 charges, when needs charge to storage battery car etc. at first the pulling pull ring to put thing board 4 with charging box two 5 and draw out from notch 3, just can charge operation to storage battery car etc. through charging first 8 on the charging block 7 afterwards, through the setting of charging socket 6, can charge or other operations as required by the user, and then can provide multiport output to a certain extent, and then improve the practicality of this high efficiency fills electric pile, can reduce the influence of rainwater to still high efficiency type fills electric pile in the rainy day through setting up of fender cover 9 and weather shield 34.

Referring to fig. 5, an embodiment of the present invention is provided: the utility model provides a can realize charge stake of multiport output, including putting thing pole 10 and pull rod 18, put the back side of thing board 4 and put thing pole 10, put the top of thing pole 10 and install connecting rod one 11 and connecting rod two 12, connecting rod one 11 and connecting rod two 12 all are located the rear of charging box two 5, the height of connecting rod one 11 is less than the height of connecting rod two 12, connecting plate 13 has been cup jointed to the top surface of connecting rod two 12, the surface of connecting plate 13 is provided with embedded thing groove 14, the surface of connecting plate 13 is provided with jack 15, the surface mounting of connecting plate 13 has limiting plate 16, the internal surface mounting of limiting plate 16 has inserted bar one 17, the surface mounting of limiting plate 16 has pull rod 18, put thing pole 10 and be located the below of charging box two 5, connecting rod two 12 are located one side of connecting rod one 11, jack 15 is located one side of putting thing groove 14, limiting plate 16 is located the opposite side of putting thing groove 14, limiting plate 16 is the silica gel material, inserted bar one 17 and jack 15 gomphosis mutually.

Further, after charging, the charging wire on the first charging head 8 is wound on the first connecting rod 11, the tail end of the charging wire is clamped into the storage groove 14 on the connecting plate 13, then the first inserting rod 17 on the limiting plate 16 is inserted into the jack 15, so that a certain limiting effect is achieved, the charging wire is stored and tidied before and after the use, and the limiting plate 16 is made of silica gel, so that the setting of the pull rod 18 provides a certain convenience for taking the charging wire out of the storage groove 14 during charging.

Referring to fig. 6, an embodiment of the present invention is provided: the utility model provides a can realize charging pile of multiport output, includes servo motor 19 and electro-magnet one 23, electro-magnet one 23 is installed to the bottom of charging box two 5, puts the diapire of thing platform 1 and installs servo motor 19, and connecting rod three 20 is installed to servo motor 19's output, and connecting rod four 21 is installed in connecting rod three 20's front, and connecting rod four 21 is "L" font structure, and connecting rod four 21 is located one side of putting thing platform 1, and iron plate one 22 is installed on the top of connecting rod four 21.

Further, when the charging box II 5 is used for charging, the servo motor 19 is started, so that the connecting rod III 20 is driven to rotate, the connecting rod IV 21 can be driven to do circular motion, and then the electromagnet I23 at the bottom of the charging box II 5 is electrified until the iron block I22 on the connecting rod IV 21 is attracted with the electromagnet I23, so that the stability of the charging box II 5 in use can be improved to a certain extent.

Referring to fig. 2 and 3, an embodiment of the present invention is provided: the utility model provides a can realize charge stake of multiport output, including loading board 24 and electro-magnet two 33, loading board 24 that arranges from top to bottom is installed in the front of charging box one 2, and loading board 24 is located one side of notch 3, the carrier block 25 is all installed to the surface that two sets of loading boards 24 are close to each other, the top of below carrier block 25 is provided with downwardly extending's slot 26, the bottom slidable mounting of top carrier block 25 has inserted block 27, backup pad 28 is installed to the bottom of inserted block 27, the pull ring is installed in the front of backup pad 28, the bottom of backup pad 28 is provided with the slotted hole, the connecting block is installed through the shaft piece to the slotted roof, spring 31 is installed to the bottom of connecting block, and spring 31 is located the inboard of slotted hole, inserted bar two 29 are installed to the bottom of spring 31, and inserted bar two 29 are jogged with below carrier block 25, the surface mounting of inserted bar 30, the back of backup pad 28 is connected with the front of putting the thing board 4, bar 30 is located the inboard of slot 26, the pulling pull ring, can drive backup pad 28 under the effect of bearing block 27 and rotate between two sets of carrier blocks 25, and the angle of rotation is "180" iron block 28 is installed to the front of two, the electro-magnet two is installed to the front of two, the electro-magnet 32 is installed to the front of two 32, the electro-magnet is installed to the front of two 32, 33 is located at the front of the electro-magnet is installed, and is mounted to the front of two, and is mounted to the electro-magnet 32, and is attached to the electro-magnet 32.

Further, when the charging pile is installed, the stop lever 30 is pushed upwards at first, so that the second inserting rod 29 is driven to compress the spring 31 to shrink into the slot, then the inserting block 27 on the supporting plate 28 is inserted into the upper bearing block 25, the stop lever 30 is aligned to the slot 26, then the stop lever 30 is released, at the moment, the second inserting rod 29 can be inserted into the lower bearing block 25 under the action of the spring 31, the stop lever 30 can be positioned in the slot 26, and since the connecting block at the top end of the spring 31 is connected with the supporting plate 28 through the shaft piece, the supporting plate 28 can be driven to rotate between the two groups of bearing blocks 25 when the pull ring is pulled, the second iron block 32 on the supporting plate 28 is attached to the second electromagnet 33 when the electromagnet 33 is electrified, and the second charging box 5 can be limited in the slot 3.

Further, the working steps of the charging pile are as follows:

s1, before the charging pile is used, firstly, lifting the stop lever 30 upwards, further driving the second inserting rod 29 to shrink into the slot hole, extruding the spring 31, then inserting the inserting block 27 into the upper bearing block 25, then moving the supporting plate 28 until the second inserting rod 29 is embedded with the lower bearing block 25, and limiting the second inserting rod 29 through the embedding of the stop lever 30 and the slot 26;

s2, when the electric automobile is required to be charged, the charging head II 35 is firstly taken down from the charging box I2, and then the electric automobile can be charged through the charging head II 35;

s3, when the battery car and the like are charged, the electromagnet II 33 is powered off, so that the iron block II 32 is not attracted with the electromagnet II 33 any more, and then the pull ring is pulled, so that the object placing plate 4 can be driven to move out of the notch 3 under the action of the supporting plate 28;

s4, after the connecting rod IV rotates to a proper position, starting the servo motor 19 so as to drive the connecting rod IV 20 to do circular motion, further driving the connecting rod IV 21 to approach the charging box II 5, and then electrifying the electromagnet IV 23 until the iron block IV 22 on the connecting rod IV 21 is attracted with the electromagnet IV 23, and then improving the stability of the charging box II 5 in use through the attraction of the iron block IV 22 and the electromagnet IV 23;

s5, the pull rod 18 is pulled outwards, so that the first inserting rod 17 on the limiting plate 16 is driven to be not embedded with the inserting hole 15 any more, then the charging wire can be taken out of the storage groove 14, and then the charging operation of the battery car and the like can be carried out through the first charging head 8.

In step S3, the method further includes the steps of:

s31, in the process of pulling the pull ring, the supporting plate 28 rotates in the middle of the two groups of bearing blocks 25 under the action of the inserting block 27 and the shaft piece, so that the supporting plate 28 can be driven to move along the direction of 0-180 degrees;

in step S5, the method further includes the steps of:

s51, in the charging process, if a user carries a charging wire, the charging wire can be inserted into the charging jack 6 to perform charging operation, so that flexibility and versatility of the charging pile in use can be improved to a certain extent, and influence of rainy and snowy weather on the charging pile in use can be reduced through the arrangement of the shielding cover 9 and the rain shielding cover 34.

Working principle: when the electric vehicle needs to be charged, the electric vehicle can be charged through the second charging head 35, when the electric vehicle is charged, the second electromagnet 33 is powered off, and then the pull ring is pulled, so that the object placing plate 4 can be driven to move out of the notch 3 under the action of the supporting plate 28, and then the electric vehicle can be charged through the first charging head 8;

after the charging box II 5 is pulled out, the servo motor 19 is started, so that the connecting rod III 20 is driven to rotate, the connecting rod IV 21 can be driven to do circular motion, the electromagnet I23 is electrified until the connecting rod IV 21 is attracted with the electromagnet I23 in the slow rotation process, and the stability of the charging box II 5 in use can be improved to a certain extent;

after the charging is finished, the charging wire is wound on the first connecting rod 11, the tail end of the charging wire is embedded with the storage groove 14, and then the limiting plate 16 is pushed until the first inserting rod 17 is embedded with the inserting hole 15, so that a certain limiting function can be achieved to a certain extent.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. Charging pile capable of realizing multi-port output, comprising a storage table (1), and characterized in that: four sides of the object placing table (1) are of an open structure, and a charging box I (2) is arranged at the top of the object placing table (1);

the front of the charging box I (2) is provided with a notch (3) in a penetrating way, an object placing plate (4) is slidably installed in the notch (3), a charging box II (5) is installed on the back of the object placing plate (4), the charging box II (5) is located in the charging box I (2), a charging socket (6) and a charging block (7) are installed on the back of the charging box II (5), the charging block (7) is located below the charging socket (6), and a charging head I (8) is installed on the back of the charging block (7);

the output end of the first charging head (8) is provided with a charging wire;

the back of the object placing plate (4) is provided with an object placing rod (10), the top of the object placing rod (10) is provided with a first connecting rod (11) and a second connecting rod (12), the first connecting rod (11) and the second connecting rod (12) are both positioned behind the second charging box (5), the height of the first connecting rod (11) is smaller than that of the second connecting rod (12), the outer surface of the top of the second connecting rod (12) is sleeved with a connecting plate (13), the outer surface of the connecting plate (13) is provided with an embedded object placing groove (14), the outer surface of the connecting plate (13) is provided with an inserting hole (15), the outer surface of the connecting plate (13) is provided with a limiting plate (16), the inner surface of the limiting plate (16) is provided with a first inserting rod (17), and the outer surface of the limiting plate (16) is provided with a pull rod (18);

the front of the charging box I (2) is provided with bearing plates (24) which are arranged up and down, the bearing plates (24) are positioned on one side of the notch (3), bearing blocks (25) are arranged on surfaces, which are close to each other, of the two groups of bearing plates (24), a slot (26) which extends downwards is arranged at the top of the lower bearing block (25), an inserting block (27) is slidably arranged at the bottom of the upper bearing block (25), a supporting plate (28) is arranged at the bottom of the inserting block (27), a pull ring is arranged at the front of the supporting plate (28), a slotted hole is formed in the bottom of the supporting plate (28), a connecting block is arranged on the top wall of the slotted hole through a shaft, a spring (31) is arranged at the bottom of the connecting block, a second inserting rod (29) is arranged at the bottom end of the spring (31), the second inserting rod (29) is embedded with the lower bearing block (25), and a stop lever (30) is arranged on the outer surface of the second inserting rod (29);

the storage rod (10) is positioned below the charging box II (5), the connecting rod II (12) is positioned at one side of the connecting rod I (11), the jack (15) is positioned at one side of the storage groove (14), the limiting plate (16) is positioned at the other side of the storage groove (14), the limiting plate (16) is made of silica gel, and the inserting rod I (17) is embedded with the jack (15);

the back of the supporting plate (28) is connected with the front of the object placing plate (4), the stop lever (30) is positioned at the inner side of the slot (26), the pull ring is pulled, the supporting plate (28) can be driven to rotate between the two groups of bearing blocks (25) under the action of the connecting block shaft piece, and the rotating angle is 0-180 degrees.

2. A multi-port output enabled charging stake as set forth in claim 1 wherein: the bottom of charging box two (5) is installed electro-magnet one (23), and servo motor (19) are installed to the diapire of putting thing platform (1), and connecting rod three (20) are installed to the output of servo motor (19), and connecting rod four (21) are installed in the front of connecting rod three (20), and connecting rod four (21) are "L" font structure, and connecting rod four (21) are located one side of putting thing platform (1), and iron plate one (22) is installed on the top of connecting rod four (21).

3. A multi-port output enabled charging stake as set forth in claim 2 wherein: the back of backup pad (28) is installed iron plate two (32), and the front of charging box one (2) is embedded installs electro-magnet two (33), and electro-magnet two (33) are located the opposite side of notch (3), and the front of electro-magnet two (33) is laminated with the back of iron plate two (32).

4. A multi-port output enabled charging stake as set forth in claim 3 wherein: the back of the storage plate (4) is provided with a baffle cover (9), the baffle cover (9) is of a concave structure, the baffle cover (9) is positioned on the outer side of the charging box II (5), and the top of the baffle cover (9) is inclined downwards.

5. The charging pile capable of achieving multi-port output according to claim 4, wherein: the charging box I (2) is characterized in that a charging head II (35) is arranged on the outer wall of one side of the charging box I (2), a rain shield (34) is arranged at the top of the charging box I (2), and the size of the rain shield (34) is larger than that of the charging box I (2).

6. The method for using the charging pile capable of realizing multi-port output according to claim 5, wherein the working steps of the charging pile are as follows:

s1, before the charging pile is used, firstly, lifting a stop lever (30) upwards, further driving a second inserting rod (29) to shrink into the slot hole, extruding a spring (31), then inserting an inserting block (27) into the upper bearing block (25), and then moving a supporting plate (28) until the second inserting rod (29) is embedded with a lower bearing block (25), and limiting the second inserting rod (29) through the embedding of the stop lever (30) and the slot (26);

s2, when the electric automobile is required to be charged, the charging head II (35) is firstly taken down from the charging box I (2), and then the electric automobile can be charged through the charging head II (35);

s3, when the battery car is charged, the electromagnet II (33) is powered off, so that the iron block II (32) is not attracted with the electromagnet II (33) any more, and then the pull ring is pulled, so that the object placing plate (4) can be driven to move out of the notch (3) under the action of the supporting plate (28);

s4, after rotating to a proper position, starting a servo motor (19), so as to drive a connecting rod III (20) to do circular motion, further driving a connecting rod IV (21) to approach a charging box II (5), and then electrifying an electromagnet I (23) until an iron block I (22) on the connecting rod IV (21) is attracted with the electromagnet I (23), and then improving the stability of the charging box II (5) in use by the attraction of the iron block I (22) and the electromagnet I (23);

s5, the pull rod (18) is pulled outwards, so that the first inserting rod (17) on the limiting plate (16) is driven to be not embedded with the inserting hole (15) any more, then the charging wire can be taken out from the storage groove (14), and then the charging operation can be carried out on the battery car through the first charging head (8).

7. The method of using a multi-port output enabled charging pile according to claim 6, further comprising the step of, in said step S3:

s31, in the process of pulling the pull ring, the supporting plate (28) can rotate in the middle of the two groups of bearing blocks (25) under the action of the inserting block (27) and the shaft piece, so that the supporting plate (28) can be driven to move along the direction of 0-180 degrees;

in the step S5, the method further includes the following steps:

s51, in the charging process, if a user carries a charging wire, the charging wire can be inserted into the charging jack (6) to perform charging operation, so that flexibility and versatility of the charging pile in use can be improved to a certain extent, and influence of rain and snow weather on the charging pile in use can be reduced through the arrangement of the shielding cover (9) and the rain shielding cover (34).