CN215552639U - High-power energy-saving intelligent charging stake - Google Patents

Abstract

The utility model relates to the technical field of charging piles, and discloses a high-power energy-saving intelligent charging pile which comprises a shell, wherein a full-load separating mechanism is movably connected to the inner side of the shell, the full-load separating mechanism comprises a matching component for fixing a matching plug and an executing component for full-electricity separation protection, the matching component is movably connected to the outer part of the shell, and the executing component is movably connected to the outer part of the shell; can realize charging plug's quick plug through the plug board, improve the convenience of charging operation, change the board simultaneously and rotate and make two automatic contacts of electric joint and conductive ball and separation, the effectual potential safety hazard of avoiding charging battery full charge back plug still circular telegram to exist has improved charging battery's life, also reduced the work electric energy effect of filling electric pile to make and fill more energy-concerving and environment-protective of electric pile, improved the intelligent level and the reliability of filling electric pile.

Description

High-power energy-saving intelligent charging stake

Technical Field

The utility model relates to the technical field of charging piles, in particular to a high-power energy-saving intelligent charging pile.

Background

The charging pile has the functions similar to an oiling machine in a gas station, can be fixed on the ground or on the wall, is installed in a parking lot or a charging station of a public building or a residential area, can charge various types of electric vehicles according to different voltage levels, has the input end directly connected with an alternating current network and the output end provided with a charging plug for charging the electric vehicles, generally provides two charging modes of conventional charging and quick charging, can be used by people for swiping a card on a man-machine interaction operation interface provided by the charging pile to carry out the operations of corresponding charging mode, charging time, cost data printing and the like, can not realize the automatic sensing of the voltage of the charging battery and the automatic power off of the charging plug after the electric quantity is fully charged in the charging process of the existing charging pile, thereby not only reducing the service life of the charging battery, but also having larger potential safety hazard to the vehicle, meanwhile, the electric energy consumption of the charging pile is increased, and the practicability of the charging pile is reduced.

So to these problems, we need a high-power energy-saving intelligent charging stake to solve, can realize charging plug's quick plug through the plug board, improve the convenience of charging operation, change the board simultaneously and rotate and make two automatic contact of electric joint and conductive ball and separation, the effectual potential safety hazard that avoids charging battery full electricity back plug still circular telegram to exist has improved charging battery's life, also reduced the work electric energy effect of filling electric pile, thereby make the more energy-concerving and environment-protective of filling electric pile.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides a high-power energy-saving intelligent charging pile which has the advantages of quick plugging, automatic contact and separation, automatic sensing of the voltage of a charging battery, high safety, energy conservation and environmental protection, and solves the problems that the existing charging pile cannot automatically sense the voltage of the charging battery and automatically power off a charging plug after the electric quantity is fully charged in the charging process, so that the service life of the charging battery is shortened, a vehicle has a large potential safety hazard, the electric energy consumption of the charging pile is increased, and the practicability of the charging pile is reduced.

In order to achieve the purposes of quick plugging and unplugging, automatic contact and separation, automatic sensing of the voltage of the rechargeable battery, high safety, energy conservation and environmental protection, the utility model provides the following technical scheme: the utility model provides a high-power energy-saving intelligent charging stake, includes the shell, the inboard swing joint of shell has full-load separating mechanism, and full-load separating mechanism is including being used for the fixed cooperation subassembly of cooperation plug, being used for full electric separation protection's executive component, cooperation subassembly swing joint in the outside of shell, and executive component swing joint is in the outside of shell.

Preferably, the cooperation subassembly is including placing the cover, places cover fixed connection in the outside of shell, places the surface of cover and has seted up the flexible mouthful, and the inside fixedly connected with of placing the cover is inserted and is pulled out the board, inserts the surface of pulling out the board and has seted up the jack, and the inboard fixedly connected with of jack electrically conducts ball one, and the inside fixedly connected with copper ring of jack inserts the outside fixedly connected with cutting ferrule of pulling out the board, the inside fixedly connected with electrically conducts ball two of cutting ferrule.

Preferably, the executive component includes the motor, motor fixed connection is in the inside of placing the cover, the outside fixedly connected with commentaries on classics board of motor, the outside sliding connection of commentaries on classics board has the slider, the outside swing joint of slider has the connecting rod, the inside swing joint of placing the cover has the radian board, the inside fixedly connected with slide rail of placing the cover, the inboard sliding connection of slide rail has the carriage release lever, the outside fixedly connected with rack of carriage release lever, the outside fixedly connected with insulation board of carriage release lever, the outside fixedly connected with electricity of insulation board connects, the inside fixedly connected with contact of placing the cover.

Preferably, the outside swing joint of shell has the electric quantity detection mechanism that rechargeable battery detected, and electric quantity detection mechanism is including the installation shell, and installation shell fixed connection is outside at the shell, and the inside fixedly connected with coil one of installation shell, the inside sliding connection of installation shell have induction iron plate, the inside fixedly connected with circular telegram touch strip of installation shell, the inside fixedly connected with coil two of installation shell.

Preferably, the outer part of the shell is fixedly connected with a fixing ring, and the outer part of the shell is fixedly connected with a power-on button.

Preferably, the plug board corresponds to the position of the telescopic opening and is matched with the specification of the telescopic opening, the jack corresponds to the position of the first conductive ball and is matched with the specification of the first conductive ball, the jack corresponds to the position of the copper ring and is matched with the position of the clamping sleeve, the clamping sleeve corresponds to the position of the second conductive ball and is matched with the specification of the second conductive ball, the first conductive ball is electrically connected with the second conductive ball, two ends of the connecting rod are respectively and movably connected to the outside of the sliding block and the outside of the radian board, the radian board corresponds to the position of the rack and is matched with the specification of the rack, the electrical connector corresponds to the position of the clamping sleeve and is matched with the specification of the second conductive ball, the contact corresponds to the position of the movable rod and is matched with the specification of the movable rod, and the contact corresponds to the position of the insulating plate and is matched with the specification of the insulating plate.

Preferably, the first coil corresponds to the induction iron plate in position and is matched with the induction iron plate in specification, the electrifying contact bar corresponds to the induction iron plate in position and is matched with the induction iron plate in specification, and the second coil corresponds to the induction iron plate in position and is matched with the induction iron plate in specification.

Preferably, the first coil is electrically connected with the first conductive ball, the second coil is electrically connected with the copper ring, the motor is electrically connected with the contact, the contact is electrically connected with the power-on button, the contact is electrically connected with the power-on contact strip, the motor is electrically connected with the contact, the contact is triggered, the internal circuit of the motor is changed from a closed circuit to an open circuit, the motor stops being powered on, the power-on contact strip is triggered, the internal circuit of the motor is changed from the open circuit to the closed circuit, and the motor is powered on.

Advantageous effects

1. This energy-saving intelligent charging stake of high-power, can realize charging plug's quick plug through the plug board, improve the convenience of charging operation, change the board simultaneously and rotate and make two automatic contact of electricity joint and conductive ball and separation, the effectual potential safety hazard of avoiding charging battery full charge back plug still circular telegram to exist has improved charging battery's life, has also reduced the work electric energy effect of filling electric pile to make the more energy-concerving and environment-protective of electric pile that fills.

2. This energy-saving intelligent charging stake of high-power, through coil one by conductive ball one circular telegram produce fill electric pile voltage magnetic field and coil two by the magnetic force difference that the rechargeable battery magnetic field that copper ring and charging plug contact circular telegram produced the response iron plate, and then realize automatic perception rechargeable battery voltage, improved the real-time supervision to rechargeable battery voltage and through the timely perception of circular telegram feeler bar after full electricity, avoided the problem that rechargeable battery still circular telegram full electricity, improved the intelligent level and the reliability of filling electric pile.

Drawings

FIG. 1 is a schematic view of the present invention with a partial cross-sectional view of the inside thereof;

FIG. 2 is a schematic view of the connection structure of the full-load separating mechanism of the present invention;

FIG. 3 is a schematic view of the structure of FIG. 2 at A according to the present invention;

FIG. 4 is a schematic view of the structure of FIG. 2 at B in accordance with the present invention;

FIG. 5 is a schematic view of the structure of FIG. 2 at C in accordance with the present invention;

fig. 6 is a schematic view of a connection structure of the electric quantity detection mechanism according to the present invention.

In the figure: 1. a housing; 2. a full load separating mechanism; 21. a mating component; 211. placing a sleeve; 212. a flexible opening; 213. inserting and pulling a plate; 214. a jack; 215. a first conductive ball; 216. a copper ring; 217. a card sleeve; 218. a second conductive ball; 22. an execution component; 221. a motor; 222. rotating the plate; 223. a slider; 224. a connecting rod; 225. a radian plate; 226. a slide rail; 227. a travel bar; 228. a rack; 229. an insulating plate; 2210. an electrical connector; 2211. a contact; 3. an electric quantity detection mechanism; 301. mounting a shell; 302. a first coil; 303. an induction iron plate; 304. energizing the touch bar; 305. a second coil; 4. a fixing ring; 5. a power-on button.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-5, a high-power energy-saving intelligent charging pile includes a housing 1, a fully-loaded separating mechanism 2 is movably connected to the inner side of the housing 1, the fully-loaded separating mechanism 2 includes a matching component 21 for fixing a matching plug and an executing component 22 for full-power separation protection, the matching component 21 is movably connected to the outside of the housing 1, and the executing component 22 is movably connected to the outside of the housing 1.

Cooperation subassembly 21 is including placing cover 211, places cover 211 fixed connection in the outside of shell 1, places the surface of cover 211 and has seted up the throat 212, places the inside fixedly connected with plug board 213 of cover 211, the jack 214 has been seted up on the surface of plug board 213, the inboard fixedly connected with of jack 214 electrically conducts ball 215, the inside fixedly connected with copper ring 216 of jack 214, the outside fixedly connected with cutting ferrule 217 of plug board 213, the inside fixedly connected with electrically conducts ball two 218 of cutting ferrule 217.

Execution assembly 22 includes motor 221, motor 221 fixed connection is in the inside of placing cover 211, the outside fixedly connected with of motor 221 changes board 222, the outside sliding connection who changes board 222 has slider 223, the outside swing joint of slider 223 has connecting rod 224, the inside swing joint who places cover 211 has radian board 225, the inside fixedly connected with slide rail 226 of placing cover 211, the inboard sliding connection of slide rail 226 has carriage release lever 227, the outside fixedly connected with rack 228 of carriage release lever 227, the outside fixedly connected with insulation board 229 of carriage release lever 227, the outside fixedly connected with electric connector 2210 of insulation board 229, the inside fixedly connected with contact 2211 of placing cover 211.

The plug board 213 corresponds to the position of the expansion port 212 and has a matching specification, the jack 214 corresponds to the position of the first conductive ball 215 and has a matching specification, the jack 214 corresponds to the position of the copper ring 216 and has a matching specification, the ferrule 217 corresponds to the position of the second conductive ball 218 and has a matching specification, the first conductive ball 215 is electrically connected with the second conductive ball 218, two ends of the connecting rod 224 are respectively and movably connected to the outside of the sliding block 223 and the outside of the arc plate 225, the arc plate 225 corresponds to the position of the rack 228 and has a matching specification, the electric connector 2210 corresponds to the position of the ferrule 217 and has a matching specification, the electric connector 2210 corresponds to the position of the second conductive ball 218 and has a matching specification, the contact 2211 corresponds to the position of the moving rod 227 and has a matching specification, and the contact 2211 corresponds to the position of the insulating plate 229 and has a matching specification.

Example two:

referring to fig. 1 and 6, the high-power energy-saving intelligent charging pile comprises a housing 1, wherein a full-load separating mechanism 2 is movably connected to the inner side of the housing 1, the full-load separating mechanism 2 comprises a matching component 21 for fixing a matching plug and an executing component 22 for full-power separation protection, the matching component 21 is movably connected to the outside of the housing 1, and the executing component 22 is movably connected to the outside of the housing 1.

The outside swing joint of shell 1 has electric quantity detection mechanism 3 that rechargeable battery detected, and electric quantity detection mechanism 3 includes mounting shell 301, and mounting shell 301 fixed connection is outside at shell 1, and mounting shell 301's inside fixedly connected with coil 302, mounting shell 301's inside sliding connection has induction plate 303, mounting shell 301's inside fixedly connected with circular telegram touch strip 304, mounting shell 301's inside fixedly connected with coil two 305.

The first coil 302 corresponds to the position and has a specification matched with those of the induction iron plate 303, the powered contact bar 304 corresponds to the position and has a specification matched with those of the induction iron plate 303, and the second coil 305 corresponds to the position and has a specification matched with those of the induction iron plate 303.

Example three:

referring to fig. 1-6, a high-power energy-saving intelligent charging pile includes a housing 1, a fully-loaded separating mechanism 2 is movably connected to an inner side of the housing 1, the fully-loaded separating mechanism 2 includes a matching component 21 for fixing a matching plug and an executing component 22 for full-power separation protection, the matching component 21 is movably connected to an outside of the housing 1, and the executing component 22 is movably connected to an outside of the housing 1.

Cooperation subassembly 21 is including placing cover 211, places cover 211 fixed connection in the outside of shell 1, places the surface of cover 211 and has seted up the throat 212, places the inside fixedly connected with plug board 213 of cover 211, the jack 214 has been seted up on the surface of plug board 213, the inboard fixedly connected with of jack 214 electrically conducts ball 215, the inside fixedly connected with copper ring 216 of jack 214, the outside fixedly connected with cutting ferrule 217 of plug board 213, the inside fixedly connected with electrically conducts ball two 218 of cutting ferrule 217.

Execution assembly 22 includes motor 221, motor 221 fixed connection is in the inside of placing cover 211, the outside fixedly connected with of motor 221 changes board 222, the outside sliding connection who changes board 222 has slider 223, the outside swing joint of slider 223 has connecting rod 224, the inside swing joint who places cover 211 has radian board 225, the inside fixedly connected with slide rail 226 of placing cover 211, the inboard sliding connection of slide rail 226 has carriage release lever 227, the outside fixedly connected with rack 228 of carriage release lever 227, the outside fixedly connected with insulation board 229 of carriage release lever 227, the outside fixedly connected with electric connector 2210 of insulation board 229, the inside fixedly connected with contact 2211 of placing cover 211.

The outside swing joint of shell 1 has electric quantity detection mechanism 3 that rechargeable battery detected, and electric quantity detection mechanism 3 includes mounting shell 301, and mounting shell 301 fixed connection is outside at shell 1, and mounting shell 301's inside fixedly connected with coil 302, mounting shell 301's inside sliding connection has induction plate 303, mounting shell 301's inside fixedly connected with circular telegram touch strip 304, mounting shell 301's inside fixedly connected with coil two 305.

The outer part of the shell 1 is fixedly connected with a fixed ring 4, and the outer part of the shell 1 is fixedly connected with a power-on button 5.

The plug board 213 corresponds to the position of the expansion port 212 and has a matching specification, the jack 214 corresponds to the position of the first conductive ball 215 and has a matching specification, the jack 214 corresponds to the position of the copper ring 216 and has a matching specification, the ferrule 217 corresponds to the position of the second conductive ball 218 and has a matching specification, the first conductive ball 215 is electrically connected with the second conductive ball 218, two ends of the connecting rod 224 are respectively and movably connected to the outside of the sliding block 223 and the outside of the arc plate 225, the arc plate 225 corresponds to the position of the rack 228 and has a matching specification, the electric connector 2210 corresponds to the position of the ferrule 217 and has a matching specification, the electric connector 2210 corresponds to the position of the second conductive ball 218 and has a matching specification, the contact 2211 corresponds to the position of the moving rod 227 and has a matching specification, and the contact 2211 corresponds to the position of the insulating plate 229 and has a matching specification.

The first coil 302 corresponds to the position and has a specification matched with those of the induction iron plate 303, the powered contact bar 304 corresponds to the position and has a specification matched with those of the induction iron plate 303, and the second coil 305 corresponds to the position and has a specification matched with those of the induction iron plate 303.

The first coil 302 is electrically connected with the first conductive ball 215, the second coil 305 is electrically connected with the copper ring 216, the motor 221 is electrically connected with the contact 2211, the contact 2211 is electrically connected with the energizing button 5, the contact 2211 is electrically connected with the energizing contact bar 304, the motor 221 is electrically connected with the contact 2211, the contact 2211 is triggered, the internal circuit of the contact 2211 is changed from a closed circuit to an open circuit, the motor 221 stops energizing, the energizing contact bar 304 is triggered, the internal circuit of the contact 2211 is changed from an open circuit to a closed circuit, and the motor 221 is energized.

When the device is started, a user inserts a charging plug into the inner side of the jack 214 on the surface of the plug board 213 through the expansion port 212 and contacts with the first conductive ball 215 and the copper ring 216, and presses the power button 5, so that the motor 221 is powered on to operate and drive the rotating board 222 to rotate, the rotating board 222 rotates and drives the sliding block 223 to slide on the outer part thereof, the sliding block 223 drives the connecting rod 224 to rotate, the connecting rod 224 rotates and drives the arc board 225 to swing, the arc board 225 swings and drives the rack 228 to move, the rack 228 moves and drives the moving rod 227 to slide on the outer part of the sliding rail 226, the moving rod 227 slides and drives the insulating board 229 to move, the insulating board 229 moves and drives the electric connector 2210 to move, the electric connector 2210 until the electric connector 2210 is inserted into the cutting sleeve 217 and contacts with the second conductive ball 218 to power on, meanwhile, the insulating board 229 moves along the direction of the cutting sleeve 217 until the insulating board contacts with the contact 2211, so that the motor 221 stops powering on, the second conductive ball 218 is electrified to electrify the first conductive ball 215, the first conductive ball 215 is electrified to electrify the charging plug to charge the rechargeable battery, the first conductive ball 215 is electrified to electrify the first coil 302 to electrify the charging pile working voltage to generate a magnetic field and generate magnetic force on the induction iron plate 303, meanwhile, the charging plug is contacted with the copper ring 216 to electrify the copper ring 216 by the rechargeable battery, the copper ring 216 is electrified to electrify the second coil 305 to electrify the rechargeable battery voltage to generate a magnetic field and generate differential magnetic force on the induction iron plate 303, the magnetic field generated by the first coil 302 is larger than the magnetic field generated by the second coil 305 when the rechargeable battery starts to be charged, the induction iron plate 303 slides in the mounting shell 301 under the magnetic attraction effect of the first coil 302, when the electric quantity of the rechargeable battery is continuously increased and full of electricity, the voltage is also continuously increased, and the magnetic field of the second coil 305 is continuously enhanced, at the moment, the induction iron plate 303 slides in the mounting shell 301 along the direction of the second coil 305 under the magnetic attraction effect of the magnetic attraction of the second coil 305, the induction iron plate 303 slides until it contacts the energizing contact bar 304, so that the motor 221 is energized, the electric connector 2210 moves away from the second conductive ball 218, and the moving rod 227 slides back to the initial position until it contacts the contact 2211 therebelow, so that the motor 221 stops energizing.

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

Claims (7)

1. The utility model provides a high-power energy-saving intelligent charging stake, includes shell (1), its characterized in that: the inboard of shell (1) is connected with full-load separating mechanism (2), and full-load separating mechanism (2) are including being used for cooperation plug fixed cooperation subassembly (21), being used for full electric separation protection's executive component (22), and cooperation subassembly (21) are connected in the outside of shell (1), and executive component (22) are connected in the outside of shell (1).

2. The high-power energy-saving intelligent charging pile according to claim 1, characterized in that: cooperation subassembly (21) is including placing cover (211), place cover (211) fixed connection in the outside of shell (1), the surface of placing cover (211) has seted up flexible mouth (212), place inside fixedly connected with plug board (213) of cover (211), jack (214) have been seted up on the surface of plug board (213), the inboard fixedly connected with conductive ball one (215) of jack (214), inside fixedly connected with copper ring (216) of jack (214), outside fixedly connected with cutting ferrule (217) of plug board (213), the inside fixedly connected with conductive ball two (218) of cutting ferrule (217).

3. The high-power energy-saving intelligent charging pile according to claim 2, characterized in that: execution module (22) includes motor (221), motor (221) fixed connection is in the inside of placing cover (211), the outside fixedly connected with of motor (221) changes board (222), the outside sliding connection who changes board (222) has slider (223), the outside swing joint of slider (223) has connecting rod (224), the inside swing joint who places cover (211) has radian board (225), the inside fixedly connected with slide rail (226) of placing cover (211), the inboard sliding connection of slide rail (226) has carriage release lever (227), the outside fixedly connected with rack (228) of carriage release lever (227), the outside fixedly connected with insulation board (229) of carriage release lever (227), the outside fixedly connected with electricity joint (2210) of insulation board (229), place the inside fixedly connected with contact (2211) of cover (211).

4. The high-power energy-saving intelligent charging pile according to claim 1, characterized in that: the utility model discloses a power supply device, including shell (1), the outside swing joint of shell (1) has electric quantity detection mechanism (3), electric quantity detection mechanism (3) are including installation shell (301), installation shell (301) fixed connection is outside in shell (1), the inside fixedly connected with coil one (302) of installation shell (301), the inside sliding connection of installation shell (301) has induction iron plate (303), the inside fixedly connected with circular telegram touch strip (304) of installation shell (301), the inside fixedly connected with coil two (305) of installation shell (301).

5. The high-power energy-saving intelligent charging pile according to claim 1, characterized in that: the outer fixed connection of shell (1) has solid fixed ring (4), and the outer fixed connection of shell (1) has circular telegram button (5).

6. The high-power energy-saving intelligent charging pile according to claim 3, characterized in that: the plug board (213) corresponds to the position of the expansion port (212) and has a matched specification, the jack (214) corresponds to the position of the first conductive ball (215) and has a matched specification, the jack (214) corresponds to the position of the copper ring (216) and has a matched specification clamping sleeve (217) corresponding to the position of the second conductive ball (218) and has a matched specification, the first conductive ball (215) is electrically connected with the second conductive ball (218), two ends of the connecting rod (224) are respectively and movably connected with the outer part of the sliding block (223) and the outer part of the radian plate (225), the radian plate (225) corresponds to the position of the rack (228) and has a matched specification, the electric connector (2210) corresponds to the position of the clamping sleeve (217) and has a matched specification, the electric connector (2210) corresponds to the position of the second conductive ball (218) and has a matched specification, the contact (2211) corresponds to the position of the movable rod (227) and has a matched specification, the contact (2211) corresponds to the position of the insulating plate (229) and is matched with the specification.

7. The high-power energy-saving intelligent charging pile according to claim 4, characterized in that: the position of the first coil (302) corresponds to that of the induction iron plate (303) and is matched with the specification of the induction iron plate, the position of the electrified contact bar (304) corresponds to that of the induction iron plate (303) and is matched with the specification of the induction iron plate, and the position of the second coil (305) corresponds to that of the induction iron plate (303) and is matched with the specification of the induction iron plate.

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