CN117301922A - Portable new energy vehicle fills electric pile - Google Patents

Abstract

The invention relates to the technical field of new energy automobile charging, in particular to a portable new energy automobile charging pile which comprises a charging pile body, a charging gun, a cable for connecting the charging gun and the charging pile body, a control module arranged on the charging pile body, a gun stock and a cable conveying mechanism, and a cable placing cavity arranged in the charging pile body; the gun stock comprises an electric telescopic rod and a travelling mechanism, and the top of a movable rod of the electric telescopic rod is movably connected with the bottom of the charging gun through a rotating part; a cable conveying mechanism winding and unwinding button and an electric telescopic rod lifting button are arranged on the charging gun or the gun stock; the charging device comprises a charging pile body, wherein a gun stock fixing part is arranged below the charging pile body, a gun hanging seat is arranged above the charging pile body, and an identification module is arranged between the gun stock and the gun stock fixing part and between the charging gun and the gun hanging seat. The cable of the invention is not contacted with the ground, thereby avoiding abrasion and being convenient to move.

Description

Portable new energy vehicle fills electric pile

Technical Field

The invention relates to the technical field of new energy automobile charging piles, in particular to a portable new energy automobile charging pile.

Background

Along with the popularization of new energy vehicles, the charging piles in public areas are more and more, the new energy vehicles are divided into quick charging and slow charging, high-power charging equipment is adopted for the quick charging, and the thicker the power is, the thicker the cable is, and the heavier the weight is. The diameter of the cable of the 90 kilowatt charging pile is about 4 cm, and the weight of the cable with the length of one meter is about 3.5 kg. For the charging pile cable with the diameter of more than 120 kilowatts, the diameter is thicker, and the weight is heavier. For a host vehicle (especially for a female owner) with a vehicle charging port far from a charging pile, heavy cables are very laborious to drag during charging. Moreover, when the charging gun is aligned to the charging port, two hands are required to lift the charging gun, which is laborious. Heavy cables also result in many owners being reluctant to return the charging gun and cable to its original position after the charging gun is used up, and cables and charging guns that are messy to the ground are subject to rolling by the vehicle.

The existing high-power charging pile cable is basically dragged on the ground, and rubs with the ground during dragging, so that the skin is seriously worn for a long time. Moreover, the cable is placed on the ground in a flat state, and is easily crushed by vehicles or damaged by people. Although there is an automatic winding mechanism for winding a charging pile cable in the prior art, the winding disc diameter is large and the practicability is poor for the cable of a low-power charging pile and a high-power charging pile cable to realize automatic winding.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the portable new energy vehicle charging pile which is free from contact of a cable with the ground, avoids abrasion and saves labor in moving.

The technical scheme adopted for solving the technical problems is as follows:

the portable new energy vehicle charging pile comprises a charging pile body, a charging gun, a cable for connecting the charging gun and the charging pile body, a control module arranged on the charging pile body, a gun stock and a cable conveying mechanism, and a cable placing cavity arranged in the charging pile body; the cable conveying mechanism is arranged on the charging pile body and is used for conveying or pulling the cable out of the cable placing cavity;

the gun stock comprises an electric telescopic rod and a travelling mechanism, the electric telescopic rod comprises a fixed rod and a movable rod, the fixed rod is fixedly connected with the travelling mechanism, and the top of the movable rod is movably connected with the bottom of the charging gun through a rotating part; a cable conveying mechanism winding and unwinding button and an electric telescopic rod lifting button are arranged on the charging gun or the gun stock;

a gun stock fixing part is arranged below the charging pile body, a gun hanging seat is arranged above the charging pile body, and an identification module is respectively arranged between the gun stock and the gun stock fixing part and between the charging gun and the gun hanging seat; after the gun hanging seat and the gun stock fixing part respectively detect the charging gun and the gun stock, the gun stock fixing part locks the gun stock; after the control module reads the use instruction of the user, the gun stock fixing part unlocks the gun stock.

Further, the travelling mechanism is an electric wheel, the cable conveying mechanism winding and unwinding button is connected with a controller of the electric wheel, and when the cable conveying mechanism winding and unwinding button is pressed, the electric wheel synchronously travels.

Furthermore, the gun stock fixing part comprises symmetrically arranged seat bodies and a running mechanism placing area between the two seat bodies, and the tail ends of the two seat bodies are oppositely provided with telescopic baffle plates; and after the two telescopic baffles extend out, the walking mechanism placing area is closed.

Further, one of the seats is internally provided with a wireless charging module for charging the electric wheel.

Further, the stock still includes the free lever, the top of movable rod sets up the recess, the free lever can slide from top to bottom and set up in the recess, the top of free lever with the bottom of rifle that charges passes through rotation portion swing joint.

Preferably, the cable conveying mechanism comprises two conveying rollers which are arranged oppositely, and the cable is positioned between the two conveying rollers.

Further, the cable placing cavity is located behind the charging pile body and is the same as the charging pile body in height, and the cable conveying mechanism is located above the cable placing cavity.

Further, the gun stock fixing part comprises a lock handle arranged on the travelling mechanism, and the charging pile body is provided with a lock tongue corresponding to the lock handle.

The beneficial effects of the invention are as follows:

the self-walking gun stock is designed below the charging gun, the walking mechanism and the cable conveying mechanism synchronously move, the cable is not required to be dragged by manpower, and the charging gun is convenient and labor-saving in use. Moreover, the cable is suspended in the whole use process, so that the problems of friction damage with the ground, rolling of vehicles, artificial intentional damage and the like are avoided. The gun stock fixing part is arranged on the charging pile body, so that the gun stock is locked, and the manual random movement and no return after use are avoided.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic view of a cable of the present invention positioned within a cable receiving chamber;

FIG. 4 is a schematic view of a stock structure of the present invention;

FIG. 5 is a schematic view showing the state of use of the stock fixing part of the present invention using a bolt and lock handle structure;

FIG. 6 is an enlarged view of a portion of FIG. 2 at A;

in the figure, 1, a charging pile body; 101. a cable placement cavity; 102. a socket; 2. a charging gun; 3. a cable; 4. gun stock; 41. an electric telescopic rod; 411. a fixed rod; 412. a movable rod; 413. a groove; 42. a walking mechanism; 43. a lock handle; 431. a lock hole; 432. a radio frequency card; 5. a cable conveying mechanism; 6. a rotating part; 7. a gun stock fixing part; 71. a base; 72. a telescopic baffle; 721. a slide bar; 73. a driving motor; 8. a gun hanging seat; 9. a free lever; 10. a pay-off button; 11. a wire-rewinding button; 12. an electric telescopic rod lifting button; 13. a descending button of the electric telescopic rod.

Detailed Description

Specific embodiments of the present invention are described in detail below with reference to fig. 1-6:

the portable new energy vehicle charging pile comprises a charging pile body 1, a charging gun 2, a cable 3 for connecting the charging gun 2 and the charging pile body 1, a gun stock 4 and a cable conveying mechanism 5. The cable 3 connects the charging pile 1 and the charging gun 2, and the shape and structure of the charging pile 1 can be made into various forms under the conventional design of those skilled in the art, and is not limited to the square structure shown in the drawings.

The charging pile body 1 is provided with a control module and other electrical elements, which belong to the prior art and are not described herein. The charging pile body 1 is internally provided with a cable placement cavity 101, and the cable placement cavity 101 is of the size and structure as follows: the cable placement chamber 101 is located behind the charging pile body 1, as in the dotted line portion shown in fig. 2 (two cable placement chambers 101 are provided before and after since 2 charging guns are provided), the cable placement chamber 101 is the same in height as the charging pile body 1, and the width is the same as the width of the charging pile body 1. Between the control room of the cable placement cavity 101 and the charging pile body 1, a cable inlet is arranged on one side far away from the cable conveying mechanism 5, and the cable inlet is positioned above the cable placement cavity 101, and the cable 3 extends into the cable placement cavity 101 from the control room of the charging pile body 1. The two charging guns are used in the drawings of the present invention, and the specific embodiment is not limited to 2 charging guns, but may be 1 or more. For other embodiments of the cable placement chamber 101, such as being provided in a left-right two, or having a separate cavity in a middle position, these are all conventional arrangements by those skilled in the art and are within the contemplation of the present invention.

The cable conveying mechanism 5 may be disposed inside or outside the charging pile body 1, and as shown in fig. 3, the cable conveying mechanism 5 is disposed inside the charging pile body 1. The cable conveying mechanism 5 is located above the cable placing cavity 101 and near the cable outlet position, and is used for sending out or pulling back the cable 3 from the cable placing cavity 101. Preferably, the cable conveying mechanism 5 comprises two conveying rollers which are arranged up and down oppositely, and a cable groove is arranged in the middle of the conveying rollers. The cable 3 is clamped between two conveying rollers, the conveying rollers below are connected with a driving motor, and in order to prevent sliding friction between the cable 3 and the conveying rollers, a rubber anti-slip layer is arranged on the surface of the conveying rollers. In order to ensure smooth entry and exit of the cable 3, a guide wheel can be arranged on the cable outlet of the charging pile body 1 or a smooth arc surface can be arranged at the cable outlet.

The stock 4 is a device for supporting and towing the charging gun 2 and the cable 3, and comprises an electric telescopic rod 41 and a travelling mechanism 42. The electric telescopic rod 41 includes a fixed rod 411 and a movable rod 412, and the electric telescopic rod 41 belongs to the prior art, and other components such as a driving motor and the like are not described again. The bottom of the fixed rod 411 is fixedly connected with the running mechanism 42. When the electric telescopic rod 41 is operated to lift, the charging gun 2 cannot be aligned with the charging port of the new energy electric vehicle well, and therefore, the invention designs the free rod 9. The free rod 9 is located at the top of the movable rod 412, the top of the movable rod 412 is provided with a groove 413, the free rod 9 is arranged in the groove 413 in a vertically sliding manner, preferably, the free rod 9 is a square rod, and the groove 413 is a square groove. The top of the free rod 9 is movably connected with the bottom of the charging gun 2 through a rotating part 6. Specifically, as shown in fig. 4, the rotating portion 6 includes a rotating shaft, and the top of the free lever 9 is disposed in the movable cavity below the charging gun 2 by the rotating shaft in a left-right rotating manner, so that the charging gun 2 can rotate around the rotating shaft. The rotating part 6 is provided to flexibly rotate the charging gun 2 on the gun stock 4 so as to align with the charging port of the new energy electric vehicle. For limiting, an annular boss is arranged at the bottom of the free rod 9, and a baffle ring for limiting the extension of the annular boss is arranged at the top of the groove 413. When the electric charging gun is used, the electric charging gun 2 is positioned about 1 to 8 cm below a charging port of the new energy electric vehicle through the electric telescopic rod 41, and then the electric charging gun 2 is lifted to be aligned with the charging port of the new energy electric vehicle.

A cable conveying mechanism retraction button and an electric telescopic rod lifting button are arranged on the charging gun 2 or the gun stock 4. The present invention preferably includes the above-mentioned buttons provided on the charging gun 2, and as shown in fig. 2 and 5, a pay-out button 10 and a take-up button 11 are provided on the upper surface of the charging gun 2, and an electric telescopic-rod-up button 12 and an electric telescopic-rod-down button 13 are provided on the side surface of the charging gun 2.

The walking mechanism of the invention can adopt walking wheels without power sources to manually drag. Of course, the present invention preferably employs powered road wheels, such as the running gear 42 being an electric wheel. The electric wheel is adopted, and the operation key for advancing or retreating is the same as the cable conveying mechanism retraction button, namely: the cable conveying mechanism winding and unwinding button is respectively connected with the controller of the electric wheel and the controller of the cable conveying mechanism in a signal mode, and when the cable conveying mechanism winding and unwinding button is pressed down, the electric wheel synchronously advances or retreats.

In order to prevent the manual damage or not to put the charging gun back to the original position after the charging pile body 1 is used, a gun stock fixing part 7 is arranged below the charging pile body 1, and a gun hanging seat 8 is arranged above the charging pile body 1. The gun hanging seat 8 is the same as the gun hanging seat of the existing charging pile. An identification module is arranged between the gun stock 4 and the gun stock fixing part 7, and the identification module can adopt conventional modules such as a radio frequency module, a sensor and the like. If the radio frequency module is adopted, a radio frequency card detection module (namely a card reader) is arranged in the gun stock fixing part 7, a radio frequency card is arranged above the travelling mechanism 42, and when the gun stock 4 returns to the gun stock fixing part 7, the radio frequency card detection module detects a radio frequency card signal, so that the gun stock 4 returns to the right position. Similarly, an identification module is also arranged between the charging gun 2 and the gun hanging seat 8. After the cradle 8 and the butt fixing part 7 detect that the charging gun 2 and the butt 4 are returned to place, respectively, the butt fixing part 7 locks the butt 4. After the control module on the charging pile body 1 reads the use instruction of the user, the gun stock fixing part 7 unlocks the gun stock 4.

The locking structure of the gun stock fixing part to the gun stock 4 is designed into a first embodiment: the gun stock fixing part adopts a lock tongue and lock handle structure. As shown in fig. 5, a lock handle 43 is provided on the traveling mechanism 42 of the stock 4, a socket 102 corresponding to the lock handle 43 is provided on the charging pile body 1, a lock tongue is provided in the socket 102, a lock hole 431 and a radio frequency card 432 are provided on the lock handle 43, and a card reader corresponding to the radio frequency card 432 is provided in the socket 102. When the lock handle 43 is inserted into the socket 102, the card reader detects the information of the radio frequency card 432 on the lock handle 43, and the bolt extends into the lock hole 431 of the lock handle 43 to lock the gun stock.

The second embodiment of the present invention is designed according to the locking structure of the butt fixing part 7 to the butt 4, and is specifically as follows: as shown in fig. 2, the gun stock fixing portion 7 includes symmetrically arranged base bodies 71, a running mechanism placing area is arranged between the two base bodies 71, and telescopic baffles 72 are oppositely arranged above the tail ends of the two base bodies 71. The telescopic baffle 72 is of an L type consisting of a horizontal plate and a vertical plate, a driving motor 73 of the telescopic baffle 72 is connected with a screw rod, and the screw rod is connected with the vertical plate of the telescopic baffle 72 through a nut. Two sides of the telescopic baffle 72 are respectively provided with a protruding sliding strip 721, and the base 71 is provided with a sliding groove corresponding to the sliding strip 721. The bottom of the seat 71 and the bottom of the stock 4 are provided with identification modules (such as a radio frequency card is arranged on the stock 4, and a card reader is arranged on the seat 71), when the stock 4 enters the stock fixing part 7, the control module controls the driving motor 73 of the telescopic baffle 72 to act, the telescopic baffle 72 stretches out, and the telescopic baffle 72 clamps the travelling mechanism 42, so that the travelling mechanism cannot be pulled out from the upper side. When the electric wheel is adopted, in order to conveniently charge the battery of the electric wheel, a wireless charging module for charging the electric wheel is arranged in one of the seat bodies 71, and when the electric wheel is positioned in the gun stock fixing part 7, the battery of the electric wheel is charged by the wireless charging module.

The application method of the invention is as follows: after the user selects the charging gun to be used in a mobile phone or card swiping mode, the control module of the charging pile body 1 opens the corresponding gun stock fixing part, and the gun stock 4 is unlocked. The user takes out the stock 4, holds the charging gun 2, presses the paying-off button 10, and the cable conveying mechanism 5 and the travelling mechanism 42 work synchronously, and the cable 3 is sent out from the cable placing cavity 101 by the cable conveying mechanism 5, and the user walks to the charging port position of the new energy vehicle while holding the charging gun 2. According to the height of the charging port position, the charging gun 2 is adjusted to a proper position through the electric telescopic rod ascending button 12 or the electric telescopic rod descending button 13, if the muzzle position of the charging gun 2 is basically aligned with the charging port, the charging gun can be inserted into the charging port of the new energy vehicle by rotating the charging gun 2, if the muzzle of the charging gun 2 is positioned below the charging port, the charging gun 2 can be directly lifted upwards (the free rod 9 can be lifted from the groove 413), and the charging gun can be inserted after aligning with the charging port.

After the charging is completed, the wire-collecting button 11 is pressed, the cable conveying mechanism 5 and the travelling mechanism 42 work synchronously, the cable 3 is retracted into the cable placing cavity 101, the gun stock 4 is locked by the gun stock fixing part after the recognition module recognizes that the gun stock 4 returns to the gun stock fixing part, the charging gun 2 is hung on the gun hanging seat 8, and at the moment, the control module receives the charging gun returning information to confirm that the user returns to completion.

Finally, it should be noted that the above embodiments are merely for illustrating the technical solution of the present application, and are not limiting; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the corresponding technical solutions from the scope of the technical solutions of the embodiments of the present application.

Claims (8)

1. The portable new energy vehicle charging pile comprises a charging pile body, a charging gun and a cable for connecting the charging gun and the charging pile body, wherein a control module is arranged on the charging pile body; the cable conveying mechanism is arranged on the charging pile body and is used for conveying or pulling the cable out of the cable placing cavity;

the gun stock comprises an electric telescopic rod and a travelling mechanism, the electric telescopic rod comprises a fixed rod and a movable rod, the fixed rod is fixedly connected with the travelling mechanism, and the top of the movable rod is movably connected with the bottom of the charging gun through a rotating part; a cable conveying mechanism winding and unwinding button and an electric telescopic rod lifting button are arranged on the charging gun or the gun stock;

a gun stock fixing part is arranged below the charging pile body, a gun hanging seat is arranged above the charging pile body, and an identification module is respectively arranged between the gun stock and the gun stock fixing part and between the charging gun and the gun hanging seat; after the gun hanging seat and the gun stock fixing part respectively detect the charging gun and the gun stock, the gun stock fixing part locks the gun stock; after the control module reads the use instruction of the user, the gun stock fixing part unlocks the gun stock.

2. The portable new energy vehicle charging pile according to claim 1, wherein the traveling mechanism is an electric wheel, the cable conveying mechanism winding and unwinding button is connected with a controller of the electric wheel, and when the cable conveying mechanism winding and unwinding button is pressed, the electric wheel synchronously travels.

3. The portable new energy vehicle charging pile according to claim 2, wherein the stock fixing part comprises symmetrically arranged seat bodies and a running mechanism placing area between the two seat bodies, and the tail ends of the two seat bodies are oppositely provided with telescopic baffles; and after the two telescopic baffles extend out, the walking mechanism placing area is closed.

4. A portable new energy vehicle charging pile according to claim 3, wherein one of the seats is internally provided with a wireless charging module for charging the electric wheel.

5. The portable new energy vehicle charging pile according to claim 1, wherein the stock further comprises a free rod, the top of the movable rod is provided with a groove, the free rod is arranged in the groove in a vertically sliding manner, and the top of the free rod is movably connected with the bottom of the charging gun through a rotating part.

6. The portable new energy vehicle charging pile of claim 1, wherein the cable transport mechanism comprises two oppositely disposed transport rollers, the cable being positioned between the two transport rollers.

7. The portable new energy vehicle charging pile according to claim 1, wherein the cable placement cavity is located at the rear of the charging pile body and is the same as the charging pile body in height, and the cable conveying mechanism is located above the cable placement cavity.

8. The portable new energy vehicle charging pile according to claim 2, wherein the stock fixing part comprises a locking handle arranged on the travelling mechanism, and a locking tongue corresponding to the locking handle is arranged on the charging pile body.